Intermediates in the preparation of 6beta-methyl-halo ethisterone compounds



United States Patent; 0

3 246 021 INTERMEDIATES IN EH1; PREPARATION or 6/3- METHYL-HALO ETHISTERONE COMPOUNDS Arthur E. Gberster, Canton, Ohio, Roger E. Beyier, Car- 'ice oxygenated-androstene-1713-01 by first protecting the oxygen functions present at the 0-3 and C-17 positions of the steroid molecule with suitable protecting groups, and then halogenating to form the 17a-haloethynyl derivative.

5 The protecting groups at C-3 and C17 are then removed. 2253:333 gfig g g g' fig gfi sg g F' This process may be schematically represented as folg New Jersey lows, starting with a 17a-ethynyl-4-androstene-175-01-3- NO Drawing. Filed Apr. 20, 1960, $6!- No. 23,392 one in which R is methyl, or the corresponding 12 Claims, ((21, 260-3974) steroid in which R is hydrogen:

H0 'CECH HO\ CECE R R (\l p Step 1 o o CECE O o o=oX Step 2 Step 3 O O Y (II-B) (III) 110 050x 7 HO\ pzox HO 050x R I V o= 0= I 0: V

(IV-A) (IV-B) (IVC) This invention is concerned generally with novel steroids and processes of preparing the same. More particularly, it relates to novel 21-haloethisterones, 2l-halonorethisterones, and closely related compounds which possess useful therapeutic properties as orally and parenterally active progestational agents. This invention also relates to pharmaceutical compositions containing these novel steroid compounds.

In accordance with the present invention, the novel 21- haloethisterones (17a-haloethynyl-4-androstene-17fi-o1-3- ones) and the 2l-halonorethisterones '(l7u-halo-ethynyl- 19-nor-17fl-ol-3-ones) are prepared from a l7a-ethynyl-3- When starting with the 19-nor-17a-ethynyl-4-androstene-l7/3-ol-3-one, in which R is hydrogen, Compound IIA (and likewise Compounds II-B and III) are mixtures of the A and the A -androstenes, and in the case of the A500) compound, the hydrogen (R) shown at C-10 is present at C-4. Removal of the protecting groups in Step 3, using concentrated HCl gives only the 3-ket0-A -androstene (IV-A), but using approximately 70% aqueous acetic acid gives a mixture of the 3-keto-A (IV-A), the 3-keto-A (IV-B) and the 3-keto-A -androstenes, which compounds can be separated by chromatography.

When starting with the 17a-ethynyl-4-androstene-17 3- ol-3-one, in which R is methyl, onlythe A5-androstene is present at I1A, II-B and III, and only the A -androstene (IVA) is formed in Step 3.

The process may be schematically represented in the following manner, starting with a l7a-ethynyl-5-androstene-3fl,17[3-diol in which R is methyl, or the corresponding l9-nor-steroid in which R is hydrogen:

no 0201i If the starting material is the 17a ethynyl 5 androstene 313,171? diol (1), the product (TV) which is obtained on removal of the protecting groups is the 170C- haloethynyl 5 androstene 35,175 diol. This compound m-ay be converted into the 17a haloethynyl 4- androstene 17,6 ol 3 one (21 ha-loethisterone) by oxidation, for example, with aluminum isopropoxide and cyclohexanone (or acetone) in benzene. The choice of the 3-oxygenated-steroid used as starting material is based on practicalconsiderations, availability and the like.

In the first step of our process the oxygen functions present at the C3 and Cl7 positions of the steroid molecule are protected. In a preferred embodiment of our invention a 3-keto group is blocked by forming the 3 ethylenedioxy-derivative by reaction with excess ethylene glycol in benzene, toluene or ethylene dichloride solvent in the presence of acid catalysts sch as p-toluenesulfonic or sulfuric acid, the water by-product being continuously removed.

'' veniently recovered by other extraction.

The 3ket0-gr0up may also be converted into the 3- ethylenedioxy derivative by exchange dioxolanation, which involves acid-catalyzed transfer of the ethylene glycol portion of simple 2,2-dia-lkyl-1,3-dioxolanes, such as 2,2- dimethjyl 1,3 dioxolane (acetone ethylene ketal) or, better, 2 methyl 2 ethyl 1,3 dioxolane (butanone ethylene ketal), on reaction of the ketones either in an inert solvent, as benzene, or simply in excess reagent.

Other cyclic ketal derivatives can be used in our process for protecting a ketone group at (3-3. In general, we have found that the lower alkylenedioxy derivatives wherein the hydrocarbon group contains not more than seven carbon atoms, such as the ethylenedioxy, trimethylcnedioxy, pr-opy lenedioxy and butylenedioxy derivatives are most suitable. However, in place of using a lower alkylenedioxy substituentto block or protect the keto sabstituent, we can use other derivatives readily hydrolyzable to keto, such as an enol ether monothioketal, or a dithioketal derivative for this purpose.

The 175-01 group, and the 35,17,6-diol groups in the steroid molecule are protected by reaction with dihydropyran in the presence of an acidic reagent, such as ptoluenesulfonyl chloride, to form the corresponding tetrahydropyranyl ether. This reaction takes place, for example, on addition of p-toluenesulfonyl chloride to a solution of the steroid in an excess of dihydropyran. The reaction mixture is stirred at room temperature for 16m 64 hours. The product may be recovered *by neutralizing the reaction mixture with dilute base, and then extracting with ether. The ether extracts are washed with water, dried and evaporated to dryness. The crude product is dissolved in a solvent such as petroleum ether, and chromatographed over alumina to give the corresponding tetrahydropyranyl derivative.

In Step 2 of our invention, the steroid starting material, protected at the 3- and the 17-positions as indicated above, is treated with a suitable halogenating agent. In the preferred embodiment of our invention, the steroid compound, dissolved in a tertiary alcohol, is first treated with a potassium alcoholate of that tertiary alcohol, to form the 2l-potassium derivative of the steroid compound, and the latter compound is then halogenated.

To form the 2l-chloro-derivative, the steroid is dissolved in t-butyl alcohol and treated with potassium-tbutoxide and then with t-butyl-hypochlorite.

To form the Zl-bromo-derivative, the steroid is dissolved in t-butyl alcohol and treated with potassium tbutoxide and then with N-bromosuccinimide. The choice of the tertiary alcohol reagents is determined by practical 1considerations, such as availability, solubility and the ike.

The 2l-halo-steroid compounds are conveniently recovered by adding water to the reaction mixture, and extracting with ether. The ether extracts are then washed with water, dried, and evaporated to dryness in vacuo. The residual material thus obtained is separated by chromatography on alumina to afford the 2l-halo-steroid.

In Step 3 of our process, the protecting groups at C-3 and C17 are removed, preferably by treatment with acid. Removal of the protecting groups using concentrated HCl gives the corresponding 3-l eto-A -androstene. To carry out this reaction, a solution of the steroid in methanol is stirred with concentrated HCl for approximately one hour at room temperature. The methonal may then be removed under reduced pressure. The steroid is con- The ether extract is dried, evaporated to dryness and the residual material crystallized from a suitable solvent.

When starting with the 19 nor 17a ethynyl 4- androstene 17B ol 3 one, in which R is hydrogen, removal of the protecting groups from the mixture of the 19 nor A and A -androstenes present in 111 by treatment with approximately 70% aqueous acetic acid for about one hour at room temperature gives a mix-- ture of the 3 keto 19 nor A*-, the 3 keto l9 nor- A and the 3 keto 19 nor A androstenes. These compounds can be separated by chromatography over acid-washed alumina and elution with mixtures of ether and petroleum ether.

The 170: haloethynyl 5 androstene 318,173 diol (IV') may be converted into the 17a haloethynyl 4- androstene 17p 01 3 one (21 haloethisterone) (V) by oxidation with aluminum isopropoxide and cyclohexanone in benzene. This oxidation is carried out by dissolving the steroid in a solvent such as a mixture of cyclohexanone and benzene and reacting in an inert atmosphere with a solution of aluminum isopropoxide in benzene at 80-90 C. for 2-16 hours. To recover the product, the solution is cooled, a few drops of water are added, and the resulting aluminum hydroxide is filtered off. The filtrate is concentrated on the steam bath under reduced pressure, and the residual material is crystallized from a suitable solvent.

In accordance with the present invention, the novel 21-haloethisterones are prepared from the 17a-ethynyl- 5-androstene-3fl,17;8-diol by first reacting the latter compound with dihydr-opyran in the presence of p-toluenesulfonyl chloride to give the 1700 ethynyl 5 androstene-3 3,17 B-diol-bis-tetrahydropyranyl ether.

The 17a-ethynyLS-androstene-3B,l7fl-diol-bis-tetrahydropyranyl ether is chlorinated by dissolving in t-butyl alcohol and treating with a solution of potassium tbutoxide and then with t butyl hypochlorite to give the 17m chloroethynyl 5 androstene 3B,17fl diol bistetrahydropyranyl ether. The latter compound is then hydrolized with concentrated I-ICl to give 17a-chloroethynyl 5 androstene 35,17 3 diol, which is then oxidized with aluminum isopropoxide and cyclohexanone in benzene to give the 17u-chloroethynyl-4-androstene- 17B-ol-3-one (21-chloroethisterone).

The 170: ethynyl 5 androstene 3fi,17;8 diol bistetrahydropyranyl other is brominated by dissolving the steroid in t-butyl alcohol and treating with a solution of potassium t-butoxide and then with N-bromosuccinimide to give the 17a-bromoethyny1-S-androstene-3fi,17,8- diol-bis-tetrahydropyranyl ether. The latter compound is then hydrolized with concentrated HCl to give 17abromoet'hynyl 5 androstene 3,8,17,6 diol, which is then oxidized with aluminum isopropoxide and cyclohexanone in benzene to give the 17a-bromoethynyl-4- androstene-17/3-ol-3-one (21-bromo-ethisterone) The novel 21-hal0norethisterones are prepared from norethisterone (17cc ethynyl 19 nor 4 androstene- 17B-ol-3-one) by reaction first with ethylene glyco in the presence of p-toluenesulfonic acid to give a mixture of the A and the A -17a-ethynyl-3-ethylenedioxy-19 nor-androstene-17p-ol, and then with dihydropyran to give the corresponding tetrahydropyranyl ether.

The mixture of the A and the A -17a-ethynyl-3- ethylenedioxy 19 nor androstene 17 6 o1 tetrahydropyranyl ether is chlorinated by dissolving the steroid in t-butyl alcohol and treating with a solution of potassium t-butoxide and then with t-butylhypochlorite to give a mixture of the A and the A -17a-chlor0- ethynyl 19 nor androstene 175 ol 3 one tetrahydropyranyl ether, which mixture is then hydrolized with acid. Hydrolyisis of the mixture with concentrated HCl gives the 17a-chloroethynyl-19-nor-4-androstene- 17 3 -ol 3 one (21 chloronorethisterone). Hydrolysis of the mixture with 70% aqueous acetic acid gives a mixture of the A the A and the 49-170:- chloroethynyl-19-nor-androstene 17;8-ol-3-ones, which mixture is separated by chromatography.

The mixture of the A and the A -17ot-ethynyl-3- ethylenedioxy 19 nor androstene 17s o1 tetrahydropyranyl ether is brominated by dissolving the steroid in butyl alcohol and treating with a solution of potassium t butox-ide and then with N-bromosuccinimide to give a mixture of the A and the A -lh bromoethynyl 19 nor androstene 17,8 ol 3 one tetrahydropyranyl ether. The latter compound is then bydrolized with acid. Hydrolysis of the mixture with wherein the 1,2-positions and the 6,7-positions of the steroid molecule may be double bonded or saturated, and wherein R is hydrogen, a methyl group, R is a lower alkyl or alkanoyl group, X is CECCI, CEOBr, CH=CHC1, CH=CHBr, CH CH Br or CH OH CI, and Y is methyl, chloro or fluoro.

This invention also contemplates the preparation of the 17/3-lower alkyl esters and ethers of the l7a-haloethynyl-19-nor-5(IO-androstene 17 3 ol ones, as Well as the products which are formed on hydrogenating the 17a-haloethynyl group of the aforesaid compounds to the 17u-CH=CHX, and to the 17u-CH CH X groups, where X represents chlorine or bromine.

The 17a-ha1oethynyl group of the 2l-haloethisterones and the 21-halonorethisterones (VI) is reduced to the corresponding chlorovinyl derivative (VI) on hydrogenation with a Lindlar catalyst, and to the corresponding chloroethyl derivative (VII) on hydrogenation using a heavy metal catalyst such as PtO n'o ICII=CHX The 6m-methyl-2l-haloethisterone is prepared 'by reacting the 17a-haloethynyl-5androstene-3,6,17fi-diol with monoperphthalic acid to give the l7ot-haloethynyl-androstatic-3fl,-l7,8-diol-5,6-oxide, which on reaction with methyl magnesium iodide yields 6/3-methyl-17a-haloethynyl-androstane3,8,5ot,17/3-triol. The latter compound is oxidized with an oxidizing reagent prepared from chromium trioxide a.-d sulfuric acid to give 6,8- met'hyl 17a haloethynyl androstane 504,175 diol- 3-one, which on treatment with aqueous sodium hydroxide gives the fiat-methyl-17ct-haloethynyl-4-androstene-17pol-3-one.

The 6a methyl 171x haloethynyl 4 androstenel7B-ol-3-one is dehydrogenated at C-1 by means of selenium dioxide, or alternately by microbiological methods, to give the Gut-methyl-Net-haloethynyl-1,4-androstadiene-17B-ol-3-one.

The 60: methyl 17a haloethynyl 4 androstene- 17B-ol-4-one is reacted with chloranil to give 6-methyl- 17a haloethynyl 4,6 androstadiene 17,8 ol 3 one, which compound is dehydrogenated at C-1, by means of selenium dioxide, or alternately by microbiological methods, to give 6-methyl-l7u-haloethynyl-1,4,6-andr0statri ene-17e-ol-3-one.

The 17B-lower allzyl ethers of the 17[3-hydroxy-17ahaloethynyl-3-keto-steroids are prepared by the reaction of the corresponding 17fl-hydroxy-steroid with a lower alkyl halide and silver oxide in a solvent such as dimethyltormamide. The lower alkyl halides which may be used for this purpose includes methyl iodide, ethyl iodide, n-propyl iodide, n-butyl iodide and the like.

The 17,6-lower alkanoyl ethers of the 17fi-hydroxy-l7othaloethynyl-3-l eto-steroids are prepared by the reaction of the corresponding 17/3-hydroxy-steroid with a lower alkanoic acid anhydride in the presence of an organic base such as pyridine. The lower acid anhydrides which may be used for this purpose include acetic anhydride, propionic anhydride, butyric anhydride, and the like.

The 17cc haloethynyl 1,4 androstadiene 175 ol- 3-one acetate is prepared by reacting l7a-haloethynyl-4- androstane-17fi-ol-3-one with acetic anhydride in pyridine to give the corresponding acetate, and then converting the later compound into the l7ot-haloethynyl-l,4-androstadiene-l7fl-ol-3-one acetate by means of selenium dioxide, or alternately by microbiological methods.

The 170: haloethynyl 1,4 androstadiene 17emethoxy-3-one is prepared by reacting Hot-haloethynyl- 4-androstene-17fi-ol-3-one with methyl iodide and silver oxide, using dimethylformamide as solvent, to give the 17oz haloethynyl 4 androstene 17,8 methoxy 3 one and then converting the latter compound in to the 17ahaloethynyl 1,4 androstadiene 17,8 methoxy 3 one by means of selenium dioxide, or alternately by microbiological methods.

The 611 chloro 17a haloethynyl 1,4 androstadiene-17,8-ol-4-one acetate is prepared by reacting 17ahaloethynyl-4-androstene-17fl-ol-3-one with acetic anhydride and p-toluenesulfonic acid to give the 17a-haloethynyl-3,5-an-drostadiene-3,17/3-diol-diacetate. The latter compound is reacted with N-chlorosuccinimide to give the 6a-chloro-l7a-haloethynyl-4-androstene-17,8-01- 3-one acetate, which is converted into the 60t-Ch1OIO-170thaloethynyl-1,4-androstadiene-l7fi-ol-3-one acetate by reaction with selenium dioxide, or alternately by microbiological methods.

The 6st chloro 17.0: haloethynyl 1,4 androstadiene-l7/3-methoxy-3-one is prepared by reacting 17ozhaloethynyl-4-androstene-17/3-01-3-one with methyl iodide and silver oxide, using dimethylformamide as solvent, to give the 17a-haioethynyl-4-androstene-17fl-methoxy-3-one. The later compound is then converted into the 17a-haloethynyl-3,S-androstadiene-17/3-methoxy-4-ol acetate, by reaction with acetic acid and p-toluenesulfonic acid. The acetate so formed is treated with N-chlorosuccinimide to give the 6a-chloro-17e-haloethynyl-4-androstene-175- methoxy-3-one, which compound is dehydrogenated by selenium dioxide, or alternately by microbiological methods, to the Got-chloro-l7tx-haloethynyl-l,4-androstadienel7fi-methoxy-3-one.

The 6 chloro-l7a haloethynyl 4,6 androstadiene- 17fl-ol-3-one acetate is prepared by reaction of 17ot-haloethynyl-4-androstene-l7fl-ol-3-one with chloranil to give the 170: haloethynyl 4,6 androstadiene 17p ol 3- one (M-Zl-haloethisterone), which is converted into the 17ot-haloethynyl-4-androstene-176-0 3 one 6,7 oxide on reaction with perbenzoic acid. The latter compound is reacted with HCl in chloroform solution to give the 6 chloro 17a haloethynyl 4,6 androstadiene 175- ol-3-one which forms the acetate on treatment with acetic anhydride in pyridine, and the corresponding 17,8-methoxy-derivative on reaction with methyl iodide and silver oxide. The 6-chloro-l7ot-haloethynyl4,6-androstadiene-17f3-ol-3-one acetate is dehydrogenated to the 6 chloro 17o: haloethynyl 1,4,6 androstatriene 176- ol-3-or1e acetate on reaction with selenium dioxide, or alternately by microbiological methods.

The Get fiuoro 17cc haloethynyl 4 androstene- 17l3-ol-3-one acetate is prepared from Not-haloethynyl- 3,5-androstadiene-3,17B-diol diacetate by reaction with perchloryl fluoride followed by acid treatment. The 6mfluoro 170a haloethynyl 4 androstene 175 ol 3- one acetate is dehydrogenated at C1 by means of selenium dioxide, or alternately by microbiological methods, to give 6ot-fluoro-17ca-haloethynyl-l,4-androstadiene-l7fiol-3-one acetate.

The 6st fluoro 17o: haloethynyl 4 androstenel7fl-ol-3-one acetate is reacted with chloranil to give 6 fluoro 17a haloethynyl 4,6 androstadiene 17,8- ol-3-one acetate, and the latter compound is dehydrogenate-d at C-1 by means of selenium dioxide, or alternately by microbiological methods, to give 6-fiuoro-l7othaloethynyl-1,4,6-androstatriene-l7B-ol-3-one acetate.

The 17cc haloethynyl 3,5 androstadiene 17c methoxy-3,8-oi acetate is reacted with perchloryl fluoride followed by acid treatment to give t-flllOI'O-17CL-hfli0- ethynyl-4-androstene-INS-methoxy 3 one, which compound may be dehydrogenated at C-l, by means of selenium dioxide, or alternately by microbiological methods, to give 6a-fluoro-l7ot-haloethynyl-l,4-androstadiene- 17fl-methoxy-3-one.

The 604 fluoro 17oz haloethynyl 4 androstenel7/8-methoxy-3-one is converted into 6-fi1101O-17c2-h8l0 ethynyl 4,6 androstadiene 17B methoxy 3 one by the use of chloranil. The 6-fluoro-17a-haloethynyl-4,6- androstadiene-17fi3-methoxy-3-one is dehydrogenated at (3-1 by means of selenium dioxide, or alternately by microbiological methods, to yield 6-fluoro-l7ot-haloethynyl-l,4,6-androstatriene-17B-methoxy-3-one.

The l7e-haloethynyl-4-androstene-l7fi-ol-3-one is reduced to 21-halo-4,20-pregnadiene-l7fi-ol-3-one by hydrogenation in ethyl acetate, using a Lindlar catalyst, and to 2'l-halo-4-pregnene-17fl-ol-3-one by hydrogenation in ethyl alcohol using a platinum oxide catalyst.

The Ga-methyl-deriVatiVes of the 2l-halonorethisterones are prepared by first converting the 21-halonorethis terones (Hot-haloethynyl 19 nor-4-androstene-175-01-3- one) into the 17a-haloethynyl19-nor-5-androstene-3/S',

l7fl-diol-17fi-acetate by reacting the l7a-haloethynyl-l9- 'nor-4-androstene-17/3-ol-3-one with acetic anhydride and p-toluenesulfonic acid to give the 17a-h8l06thynYl-l9-I1OI- 3,5-androstadiene-3,17,8-diol-diacetate and then reacting the latter compound with sodium borohydride. Oxidation of Not-haloethynyl-l9-nor-5-androstene-3/3,17t3-diol- Jim-acetate with monoperphthalic acid yields 17a-haloethynyl-l9-nor-androstane 35,175 diol 5,6 oxide-- acetate. The latter compound is reacted with methyl magnesium iodide to form 6,8-methyl-Not-haloethynyll9-nor-androstane-3B,5u,17B-triol, which on oxidation with chromic oxide in acetone gives 6B-methyl-17ot-haioethynyl-l9-nor-androstane-5tt,l7fi-diol-3-one. The latter 9 compound is treated with sodium hydroxide to form 60:- methyl-17a-haloethynyl-19-nor-4-androstene-17B-ol-3-one.

The 6a-methyl 17a haloethynyl-19-nor-4-androstene- 17/3-ol-3-one is converted to 6a-methyl-17a-haloethynyl- 19-nor-4-androstene-17fi-methoxy-3-one by reaction with methyl iodide and silver oxide. The 6ot-methyl-17ahaloethynyl-4-androstene-l7B-0l-3-one is treated with acetic anhydride in pyridine to give 6a-methyl-l7-hal0- ethynyl-19-nor-4-androstene-17,8-ol-3-one acetate.

The 6oc-Chl0I0 17a haloethynyl-19-nor-4-androstene- 17B-ol-3-one acetate is prepared from the 17a-haloethynyl-19-nor-3,5-androstadiene-3,17 3-diol diacetate by reacting with N-chlorosuccinimide.

The 6a-fluoro-l7a-haloethynyl 19 nor-4-androstene- 17/3-ol-3-one acetate is prepared from the 17a-haloethynyl- 19-nor-3,5-androstadiene-3,17fi4iiol diacetate by reacting with perchloryl fluoride followed by acid treatment.

The 6u-chloro 17a haloethynyl-19-nor-4-androstene- 17,8-methoxy-3-one is prepared from the l7a-haloethynyl- 19-nor-4-androstene-17fl-ol-3-one by reacting first with silver oxide and methyl iodide to form the 17a-haloethynyl 19 nor 4-androstene-17,8-methoxy-3-one. The latter compound is then reacted with acetic anhydride and p-toluenesulfonic acid to give the 17a-haloethynyl- 19-nor-3,5-androstadiene-17,8-methoxy-3-ol acetate, which is converted into the 6a-chloro-17a-haloethynyl-19-nor-4- androstene-17fi-methoxy-3-one on treatment with N- chlorosuccinimide.

The 6OL-flLlOI'O 170C haloethynyl-19-nor-4-androstene- 17,8-methoxy-3-one is obtained by reacting the 17a-haloethynyl-l9-nor-3,5-androstadiene 17,8-methoxy-3-ol acetate with perchloryl fluoride followed by acid treatment.

The 17a-haloethynyl-19-nor-4-androstene-1713-01-3-0ne is reduced to 2l-halo-l9-nor-4,20-pregnadiene-17,6-01-3- one by hydrogenation in ethyl acetate, using a Lindlar catalyst and to 2l-halo-19-nor-4-pregnene-17fl-ol-3-one by hydrogenation in ethyl alcohol, using a platinum oxide catalyst.

The 17a-haloethynyl-19-nor-5(10) androstene-17B-ol- 3-one forms the acetate on treatment with acetic anhydride in pyridine, and the corresponding l7fl-methoxyderivative on reaction with methyl iodide and silver oxide. The 17a-halo-ethyny'l-19-nor-5(l0) androstene-l7 3-ol-3- one is reduced to the corresponding chlorovinyl derivative (the 2l-halo-19-nor-5(10),ZO-pregnadiene-l7B-ol-3 one) on hydrogenation with a Lindlar catalyst, and to the corresponding chloroethyl derivative (the 21-halo- 19-nor-5(10)-pregnene-17fi-ol-3-one) on hydrogenation using a heavy metal catalyst such as PtO A further embodiment of our invention comprises novel pharmaceutical compositions containing these 21- halo-ethisterones and 2l-halonorethisterones.

Various changes and modifications may be made in the present invention, certain preferred embodiments of which are herein disclosed, without departing from the scope thereof; to the extent that these changes and modifications are within the scope of the appended claims, they are to be considered a part of this invention.

Example 1 Twenty mg. of p-toluenesulfonyl chloride is added to 400 mg. of 17ot-ethynyl-5-androstene-3p,l7 8-diol in ml. of dihydropyran. The resulting mixture is allowed to stand at room temperature overnight. A 2.5 N NaOH solution is added until the mixture is slightly alkaline. Water is then added and the aqueous phase extracted with 4 portions of ether, each containing approximately 50 ml. The combined ether layers are washed with water, dried over Na SQ, and evaporated under reduced pressure to give about 725 mg. of a non-crystalline product. The product dissolved in petroleum ether is chromatographed on 60 g. of neutral alumina and the chromatogram eluted with a 7:3 mixture of petroleum etherzether to give 400 mg. of crystalline product, the 170cit) ethynyl-S-androstene 3 ,17 diol-bis-tetrahydropyianyl ether,

LR. use 2.90..

A solution of about 4 grams of 17a-ethynyl-5-androstene-3,B,17fl-diol bis-tetrahydropyranyl ether in 75 ml. of t-butyl alcohol is prepared. About 1.1 equivalents of a 1.0 molar potassium t-butoxide is added and the resulting mixture refluxed for one hour, with stirring, and then cooled. About 1.84 ml. of t-butyl hypochlorite is then added in one portion and the reaction mixture is left stirring at room temperature overnight. About ml. of water is added and the resulting aqueous mixture is extracted with four portions of ether, each containing approximately 200 ml. The combined layers are washed with water, dried over sodium sulfate, filtered and evaporated to dryness in vacuo. The residual material is dissolved in petroleum ether and chromatographed on g. of alumina. Elution with petroleum ether gives about 3.10 grams (a 70% yield) of crystals of cchloroetl1ynyl-5-androstene 3,8,175 diol bis-tetrahydropyranyl ether. The crude product shows infrared peaks at 4.4 1. and 2.9

A solution of about 3 g. of the 17a-chloroethynyl-5- androstene-3/3,17fi-diol-bis-tetrahydropyranyl ether in 125 ml. of methanol is prepared. To this solution is added 2.5 ml. of concentrated hydrochloric acid and the reaction mixture is stirred for about 1 hour at room temperature. The methanol is then removed by evaporation under reduced pressure until the product crystallizes. Approximately 100 ml. of water is then added and the resulting product is extracted with four portions of ether, each containing about 200 ml. The combined ether extract is Washed with water, dried over sodium sulfate and evaporated to a crystalline residue. The residual crystalline material is recrystallized several times from ether to give about 1.58 g. of 17a-chloroethynyl-S-androstene-3,8,175-di'ol which has the following properties: M.P. C.

Analysis.(Calculated for C H O Cl): C, 72.30; H, 8.38; Cl, 10.16. Found: C, 71.64; H, 8.63; Cl, 10.48.

One hundred mg. of 17tx-chloroethynyl-5-androstene- 3,8,17,8-diol is dissolved in 1.0 ml. of cyclohexanone and 10 ml. of benzene in a flask fitted with a magnetic stirrer and a reflux condenser. About 5 ml. of the benzene is distilled and a stream of dry nitrogen is passed through the system and maintained throughout the reaction time. Then 0.5 ml. of a 10% solution of aluminum isopropoxide in benzene is added and the reaction mixture is maintained at reflux temperature for 4 hours. The solution is cooled, 5 drops of water are added and the resultant aluminum hydroxide is filtered otf. The filtrate is taken to dryness under reduced pressure. The material is dissolved in ether, filtered, and the filtrate concentrated to give about 37 mg. of crude 17a-chloroethynyl-4-androstene-17B-ol-3-one, M.P. 178-.183 C. Recrystallization from ether gives about 25 mg. of the purified product, M.P. 182-184" C. Chromatography of all mother liquors on 3 g. of alumina and elution of the chromatogram with ether gives an additional 20 mg. of product, M.P. 181-184 C. Total yield 45 mg. The product has the following properties:

Nuiol U.V. xxgg 241 m 615,000. LR. 2.8, 4.4.3, 6.0, 6.18,.

Analysis.(Calculated for C H 0 Cl): C, 72.73; H, 7.85; Cl, 10.22. Found: C, 73.41; H, 7.93; Cl, 10.81.

Example 2 To a solution of 482 mg. of 17a-ethynyl-5-androstene- 3,8,1718-diol-bis-tetrahydropyranyl ether in 10 ml. of tertiary-butyl alcohol, is added about 1.1 equivalents of a 1.0 molar potassium t-butoxide. The resulting mixture is refluxed for one hour, with stirring, and then cooled. 196 mg. of N-bromosuccinimide is then added and the reaction mixture is stirred at room temperature for about 18 hours. The entire reaction mixture is dissolved in water and then extracted with 3 portions of ether, each containing approximately 50 ml. The combined ether extracts are washed with three portions of a saturated solution of NaHCO each portion containing approximately 25 ml., then with 3 portions of water, each containing about 25 ml. The ether layer is dried over sodium sulfate, filtered and evaporated -to dryness. The oily residue is filtered through 20 g. of aluminum oxide to give 407 mg. of oily material which is dissolved in petroleum ether and chro-matographed on 30 g. of acetone activated alkaline alumina. Elution with a 9:1 mixture of pertoleum ether and ether yields 87 mg. of 17ot-bromoethynyl--androstene-3[3,17B-diol bis tetrahydropyranyl ether. An infrared spectrum of this material shows )Mm 4.5a.

To a solution of 17oc-bromoethynyl-S-androstene-3B, 17fi-diol-bis-tetrahydropyranyl ether in 40 ml. of methanol is added 0.8 ml. of concentrated H01, and the reaction mixture is stirred for one hour at room temperature. The methanol is then removed under reduced pressure. Water is added and the resulting solution is extracted with 3 portions of ether, each portion containing approximately 75 ml. The combined ether extracts are washed three times with approximately 50 ml. of water, dried over sodium sulfate, filtered and evaporated to dryness. mg. of 17ot-bromoethynyl-5-androstene-3B,17fi-dio1 which has the following properties: M.P. 214-215 C.

LR. was? 2.7, 2.89, 4.55,.

Analysis.(Calculated for C H O Br): C, 64.10; H, 7.43; Br, 2032. Found: C, 62.40; H, 7.65; Br, 20.50..

17a-bron1oethynyl-5androstene-3fl,17,6-diol (195 mg.) is dissolved in 1.95 ml. of cyclohexanone and 20 ml. of benzene, using a flask fitted with a magnetic stirrer and a reflux condenser. After 3 ml. of benzene is distilled, a stream of dry nitrogen is passed through the system, and maintained throughout the entire reaction time. After cooling to room temperature, there is added 0.98 ml. of a 10% solution of aluminum isopropoxide in benzene, and the reaction mixture is refluxed for 3 hours and cooled to room temperature. Ten drops of water are added and the reaction mixture is filtered. The filtrate is taken to dryness. The residue is chromatographed on g. of acetone activated acid-washed alumina and 85 mg. of product is eluted with a mixture of seven parts ether to three parts petroleum ether. The 17ot-bromoethynyl-4- androstene-17/3-ol- 3-one so obtained has the following properties: U.V. M552 240 m 615,700, LR. 2.9, 4.51, 6.0, 6.2,0

AnaIysf s.(Calculated for C H O Br): C, 64.45; H, 6.95; Br, 20.42. Found: C, 65.16; H, 7.30; Br, 21.44.

Nuiol max.

Example 3 To a solution of one gram of 17u-ethynyl-19-nor-4-androstene-17fi-ol-3-one dissolved in 75 ml. of benzene is added 7.5 ml. of ethylene glycol, together with 50 mg. of p-toluenesultonic acid. The reaction mixture is heated at reflux with a water separator for hours. The reaction mixture is cooled, and about 10 ml. of bicarbonate solution is added. The reaction mixture is extracted with 3 portions of ether, each portion containing about 100 ml. The combined extracts are wash-ed with .water, dried over sodium sulfate and evaporated to dryness to. give a mixture of the A and 11 -17ocethynyl 3-ethylenedioxy- 19-nor-androstened7fi-ols.

To a solution of the total crude material from the above reaction in 10 ml. of dihydropyran which has been distilled from sodium metal, is added with stirring, 120 mg. of p-toluene-sulfonyl chloride, and the stirring is continued at room temperature for 64 hours. Saturated sodium bicarbonate solution (10 ml.) is then added to the reaction mixture. The mixture is then extracted with 3 portions of ether, each port-ion containing about 50 ml.

The residual material is crystallized to give 230 The extracts are combined, washed with water and dried over sodium sulfate, and evaporated to dryness in vacuo. The crude oil (about 3.5 g.) is dissolved in petroleum ether and chromatographed on g. of acetone activated alkaline alumina. The chromatogram is eluted with mixtures of ether and petroleum ether to give 1.043 g. of a mixture of the A and A -17oc-ethynyl-3-ethylenedioxy 19-nor-androstene-17fi-ol-tetrahydropyranyl ethers. The infrared spectrum shows bands at 2.9; -and 9.071..

To a stirred solution of 2.130 g. of the mixture of the A and A -17wethynyl-3-ethylenedioxy-19-nor-androstene--ol-tetrahydropyranyl ethers, dissolved in 50 ml. of dry t-butanol is added 5.5 ml. of 1 M potassium-tbutoxide. The reaction mixture is heated at reflux for ninety minutes and then cooled to room temperature. Then 0.95 ml. of t-butyl hy-pochlorite is added. The reaction mixture is left to stir at room temperature for about 16 hours. About 100 ml. of water is added to the reaction mixture and the aqueous solution is extracted with three portions of ether, each portion containing about 200 ml. The extracts are combined, washed with water, dried over sodium sulfate, filtered and evaporated to dryness under reduced pressure. About 2.2 g. of crude product is obtained. This is chromatographed on 100 g. of alkaline alumina. The material dissolved in petroleum ether to which a small amount of benzene has been added is chromatographed on alumina and eluted with etherpetroleum ether mixtures. 1.9 g. of a semi-crystalline product, the 17ot-chloroethynyl-3-ethylenedioxy-19-nor- 5 [and 5(10) ]-androstene-17fl-ol-tetrahydropyranyl ether, is obtained. Infrared absorption shows bands at 445a and strong absorption in the 9-10p region.

To a stirred solution of 1.9 grams of 17a-chloroethynyl- 3-ethylenedioxy-19-nor-5 [and 5 10) ]-androstene-17Boltetrahydropyranyl dissolved in 41 ml. of methanol is added 3 ml. of concentrated hydrochloric acid and 2.1 ml. of water. The reaction mixture is stirred at room temperature for 2 /2 hours. The methanol is then removed under reduced pressure. The residue is dissolved in about 200 ml. of ether and wash-ed with water until the washings are neutral. The ether solution is dried over sodium sulfate and evaporated to dryness. The crystalline residue, recrystallized from a mixture of ether and methylene chloride, gives 1.2 g. of 17zx-chloroethynyl-19-nor-4-androstene-17fi-ol-3-one, MP. 194200 C. A sample recrystallized for analysis from ethyl acetate has a melting point of 198201 C. and shows the following properties:

with ether. The ether extract is dried and conzentr'ated in vacuo. The crude product is chromatographed on ac1d-washed alumina and eluted with mixtures of ether and petroleum ether to give the 17wetl1ynyl-5(10)-androstene-17,8-ol-3--one.

Example 4 3.2 ml. of potassium t-butoxide is added to 849 mg.

l7a-ethynyl-3-ethylenedloxy19-nor-5{and 5 10) 1- androstene-17,8-ol-tetrahydropryanyl ether, prepared as in Example 3, in 28 ml. of t-butyl-alcohol. This mixture 1s refluxed for 75 minutes and then cooled to room ternperature. 1.136 g. of N-brornosuccinlmide is added and the reaction nzixture is then stirred at room temperature for about 17 hours. The reaction mixture is added to about 60 ml. of water and extracted with 3 portions of ether, each portion containing about 75 ml. The ether extracts are combined, washed with 3, 50 ml. portions of saturated sodium bisulfite solution, and then with Water p to dryness.

' until the washings are neutral. The ether solution is dried over sodium sulfate, filtered and evaporated to dryness to yield the crude 17a-bromoethynyl-3-ethylenedioxy- 19-nor [and 5(10)] androstene 17B ol tetrahydropyranyl ether which maybe used in the next step without purification.

The crude steroid is dissolved in ml. of methanol and 0.2 ml. of concentrated hydrochloric acid. The mixture is stirred at room temperature for 2 /2 hours. The methanol is then removed under reduced pressure, water is added, and the reaction mixture is extracted with 3, 75 ml. portions of ether. The other layer is washed with water, dried over sodium sulfate, filtered and evaporated This gives 737 mg. of crude oil which is chromatographed on 44 g. of acetone activated acidwashed alumina. Elution with a mixture of ether and petroleum ether gives a'crystalline material which is recrystallized from ether to yield about 78 mg, M.P. 130- 182 of 17a-bromoethynyl-l9-nor-4-androstene-17501-3- one which has the following properties U.V.: x3352 239 m Emol, 15,300, I.R.: $3 2.85, 4.55,

6.1 and 6.2

Analysis.(Calculated for C H O Br): Found: C, 64.11; H, 7.05.

Ten mg. of the mixture of l7ot-bromoethynyl-3ethylenedioxy A [and A ]-androstene-17{3ol-tetrahydro pyranyl ether is treated with 1 cc. of 70% aqueous acetic acid for 1 hour at room temperature. The product is neutralized with aqueous sodium hydroxide and extracted with ether. The ether extract is dried and concentrated in vacuo. The crude product is chromatographed on acid-washed alumina and eluted with mixtures of ether and petroleum ether to give the l7a-ethynyl-5(10)-androstene-17fl-ol-3-one.

I diol in 150 ml. of tetrahydrofuran is treated with 100 ml.

of 0.9 m. monoperphthalic acid in ethyl acetate and allowed to stand overnight at room temperature. The reaction mixture is diluted with ethyl acetate and washed sequentially with aqueous sodium bicarbonate, sodium bisulfite, and sodium bicarbonate solution. The organic layer is dried and concentrated in vacuo. The product is fractionally crystallized from aqueous ethanol to yield the 1'7a-chloroethynyl-androstane-Fvfi,17f3-diol-5,6tx-oxide. Five grams of 17a-chloroethynyl-androstane-3 6,17B- diol-5,6u-oxide in benzene is added to a reagent prepared from 3.4 g. of magnesium, 10 ml. of methyl iodide and ml. of ether. The mixture is stirred and ml. of solvent is removed by distillation. After refluxing for 5 hours,

' the mixture is cooled, acidified with dilute hydrochloric acid and the organic layer Washed to neutrality. The organic phase is dried and concentrated in vacuo. Crystallization from aqueous ethanol gives the 6,8-methyl-17achloroethynyl-androstune-355e,l7fl-triol.

The oxidizing reagent is prepared by diluting 2.7 g. of CrO and 2.3 ml. of concentrated sulfuric acid to 10 ml. with Water. A solution of 1.90 g. of 6B-methyl-17achloroethynyl-androstane-3{3,5a,17,8-triol in 300 ml. of actone is cooled to 0 and treated with 1.85 ml. of the oxidizing reagent. The solution is diluted with ice Water and extracted with ether. The ether extract is Washed sequentially with water, and aqueous sodium bicarbonate and then dried and concentrated in vacuo, to give 6,8- methyl-l7a-chloroethynyI-andrOstane-Sa,17/3-diol-3 one.

- The crude product is dissolved in 150 ml. of methanol,

is washed with water, dried and concentrated. The concentrate is chromatographed on acid-washed alumina and the'pr'oduct eluted with ether-petroleum ether mixtures the 14 to yield 6a-methyl-17a-chloroethynyl-4-androstene-17(3- ol-3-one.

In accordance with the above procedures, but starting with the 17tx-bromoethynyl-5-androstene-3B,17/3-diol in place of the 6a-methy1-l7ot-chloroethynyl-4-androstene- 17,8-ol-3-one, there is obtained the 6ot-methyl-17a-bromoethynyl-4-androstene-17,8-01-3-one.

Example 6 To mg. of 6a-methyl-17a-chl0roethynyl-4-androstene-17fi-ol-3-One in 5 ml. of t-butanol and 0.1 ml. of acetic acid is added 50 mg. of selenium dioxide. The mixture is refluxed under nitrogen for 18 hours; then 50 mg. of selenium dioxide is added and the mixture is refluxed an additional 24 hours. The product is filtered, and the filtrate evaporated to dryness. The residue is extracted with ethyl acetate and the extract is washed successively with aqueous sodium bicarbonate, ammonium sulfide, dilute ammonia Water, water, dilute hydrochloric acid and water, and then dried over magnesium sulfate. The extract is treated with activated charcoal and then concentrated to dryness. Crystallization of the residue from a mixture of acetone and ether'gives 6amethyl-17ot-choroethynyl-1,4-androstadiene-17fi-ol-3-one.

In accordance with theabove procedures, but starting with the 6a-methyl-l7ot-bromoethynyl-4-androstene-l7,8- ol-3-one in place of the u-methyl-l7a-chlorethynyl-4- androstene-l7fl-ol-3-one, there is obtained the 6Ct-Il'lfilihj 'l- 17or-bromoethyn'yl 1,4-androstadiene-17/8-ol-3-one.

eptomyxa afiinis (ATCC 6,737) is inoculated from a slant into 250 ml. shake flasks containing '50 ml. of the following medium: 2% Edamin (Shefiield Farms), 5% glucose, and 0.5% corn steep liquor. After a 48 hour incubation at 28 C., 10 mg. of 6et-methyl-l7otchloroethynyl-4-androstene-17B-ol-3-one is added to each shake flask as a dimethylformamide solution (100 n1g./ml.). After a conversion period of 24 hours, the cells are removed by filtration, followed by three successive extractions with equal volume of ethyl acetate. The extracts are combined and concentrated in vacuo.

The 6st methyl 17a-chloroethynyl-1,4-androstadienel7fl-ol-3-one is readily crystallized from the concentrate. Descending paper chromatography of the product in a system using formarnide as the stationary phase and chloroform as the mobile phase, shows some of the steroid substrate, but is largely the somewhat more polar A-dehydrogenation product.

Bacillus sphaericus (ATCC 12,488) is inoculated from a slant into 250 ml. shake flasks containing 50 ml. of the following medium: 2% Edamin (Sheflield Farms), 5% glucose, and 0.5% corn steep liquor. After a 24 hour incubation at 28 C., 10 mg. of 6ot-methyl-l7achlorethynyl-4-androstene-17/3-ol-3-one is added to each shake flask as a dimethylformamide solution (100 mg./Inl.). After a conversion period of 24 hours, the cells are removed by filtration, followed by three successive extractions with equal volume of ethyl acetate. The extracts are combined and concentrated in vacuo.

The 6a-methyl-17ot-choroethynyl 1,4 androstadiene- 17B-ol-3-one, is readily crystallized from the concentrate. Descending paper chromatography of the product in a system using formamide as the stationary phase and chloroform as the mobile phase, shows some of the steroid substrate, but is largely the somewhat more polar A'-dehydrogenation product.

In accordance with the above procedures, but using 6a-methyl-17a-bromoethynyl-4-androstene-l7fi-ol-3- one in place of the 6a-methyl-l7a-chloroethynyl-4-androstene-17fi-ol-3-one, there is obtained the 6a-methyll7a-bromoethynyl-1,4-androstadiene-17,8-ol-3-one.

Example 7 A suspension of 1 g. of 6a-methyl-17-chloroethynyl-4- androstene-l7B-ol-3-one and 2.4 g. of chloranil in 30 ml. of ethyl acetate and 6 ml. of acetic acid is stirred and refluxed for 16 hours. The reaction mixture is cool- Example 8 To 100 mg. of 6-methyl-17ot-chloroethynyi-4,6-androstadiene-17fi-ol-3-one in ml. of t-butanol and 0.1 ml. of acetic acid is added 50 mg. of selenium dioxide. The mixture is refluxed under nitrogen for 18 hours; then 50 mg. of selenium dioxide is added and the mixture is refluxed for an additional 24 hours. The product is filtered and the filtrate evaporated to dryness. The residue is extracted with ethyl acetrate and the extract is washed successively with aqueous sodium bicarbonate, ammonium sulfide, dilute ammonia water, water, dilute hydrocioric acid and water, and is then dried over magnesium sulfate. The extract is treated with activated charcoal and their concentrated to dryness. Crystallization of the residue from a mixture of acetone and ether give 6 methyl-l7a chloroethynyl-l,4,6 androstatriene-175-01-3- one.

In accordance with the above procedures, but starting with the 6-methyl-l7a bromoethynyl=4,6-androstadienel7fl-ol-3-one in place of the o-methyl-l7a-chloroethynyl- 4,6-androstadiene-l7;8*ol-3=one there is obtained the 6- methyl l'ia-bromoethynyl-1,4,6-androstatriene-1713-01 3- one.

Septomyxa afiinistATCC 6,737) is inoculated from a slant into 250 ml. shake flasks containing 50 ml. of the following medium: 2% Edamin (Sheffield Farms), 5% glucose, and 0.5% corn steep liquor. After a 48 hour incubation at 28 C., mg. of 6-methyl-17a-chloroethyr'iyl-4,'6-androstadiene l7fl-ol 3-one is added to each shake flask as a dimethylformamide solution (100 mg./ ml). After a conversion period of 24 hours, the cells are removed by filtration, followed by three successive extractions with equal volume of ethyl acetate. The extracts are combined and concentrated in vacuo.

The 6-methy1-17a-chloroethynyl-1,4,6 androstatriene- 17,8-01-3-one, is readily crystallized from the concentrate. Descending paper chromatography of the product in a system using formamide as the stationary phase and chloroform as the'mobile phase, shows some of the steroid substrate, but is largely the somewhat more polar A'-dehydrogenation product.

Bacillus sphaericas (ATCC 12,488) is inoculated from a slant into 250 ml. shake flasks containing 50 ml. of

the following medium: 2% Edamin (Shefiield Farms).

5% glucose, and 0.5% corn steep liquor. After a 24 hour incubation at 28 C., 10 mg. of 6a-methyl-17achl-oroethynyl-4,6-androstadiene-l7B-ol-3-one is added to each shake flask as a dimethylformamide solution (100 mg./ml.). After a conversion period of 24 hours, the cells are removed by filtration, followed by three successive extractions with equal volume of ethyl acetate. The extracts are combined and concentrated in vacuo.

The 6a-methyl17a-chloroethynyl-1,4,6-androstatriene- 17/3-ol-3-one, is readily crystallized from the concentrate. Descending paper chromatography of the product in a system using formamide as the stationary phase, and chloroform as the mobile phase, shows some of the steriod substrate, but is largely the somewhat more polar A'-dehydrogenation product.

, In accordance with the above procedures, but starting with the 6a-methyll7a-bromoethynyl-4,6-androstadiene- 17,8-01-3-one in place of the oer-methyl-l7cx-chloroe-thynyl- 4,6-androstadiene- 17B-ol-3-one, there'is obtained the 60:-

-A mixture of 500mg. of the 6a-methyl-l7a-chloroethynyl-4-androstene-17,8-01-3-one, 10 ml. of dimethyl formarnide, 20ml. of methyl iodide, and 1.5 gins. of silver oxide is stirred at room temperature for 4 days. An additional /2 gm. of silver oxide is added at the end of each day. One hundred ml. of chloroform is then added to the reaction mixture, then stirred for one hour, filtered, and the filtrate evaporated to dryness. The residual oil is chromatographed with acid-washed alumina and eluted with mixtures of ether and petroleum ether to give crnethyl-17a-chloroethynyl-4-androstene 17,8-methoxy-3- one.

In accordance with the above procedures, but starting with the 6a-me-thyl-l7a-bromoethynyl-4-androstene-17/3- ol-3-one in place of the oer-methyl-17a-chloroethynyl-4- androstene-l7p-ol-3-one there is obtained the 6a-methyl- 17a-bromoethynyl-4-androstene-l7B-methoxy-3-one.

100 mg. of 6a-methyl-l7a-chloro-ethynyl 4-androstene- 17,8-o1-3-one is heated with 1 cc. of acetic anhydride and 1.2 cc. of pyridine on the steam bath overnight. The reaction mixture is then poured onto ice and extracted with chloroform. The extract is washed with water and concentra-ted. The concentrate is chromatographed over acid-washed alumina and eluted with mixtures of ether .and petroleum ether to give 6a-methyl-17a-chloroethynyl- 4-androstene-17fl-ol-3-one acetate.

In accordance with the above procedures, but starting with the 6a-methyl-l7ix-bromoethynyl-4-andro-stene-l7pol 3-one in place of the 6u-methyl-l7a-chloroethynyl-4- androstene-17fl-ol-3-one there is obtained the Gut-methyl- 17a-bromoethynyl-4-androstene-l7B-ol-3-one acetate.

Example 10 100 mg. of 17a-chloroethynyl-4-androstene-175-01-3- one (Example 1) is heated with 1 cc. of acetic anhydride and 1.2 cc. of pyridine on the steam bath overnight. The reaction mixture is then poured onto ice and extracted with chloroform. The extract is washed with water and concentrated. The concentrate is chromatographed over acid-washed alumina and eluted with mixtures of etherpetroleum and ether to give 17a-chloroethynyl-4-androstene-l7fl-ol-3-one acetate.

In accordance with the above procedure, but starting with the 17a-bromoethyny1-4-androstene-l7B-ol-3-one in place of the 17a-chloroethynyl-4-androstene l7;8-ol-3-one there is obtained the 17u-bromoethynyl-4-androstene-17,8- ol-3-one acetate.

Example 11 To 100 mg. of 17a-chloroethynyl-4-androstene-17,6-01- 3-one acetate in 5 ml. of t-butanol and 0.1 ml. of acetic acid is added 50 mg. of selenium dioxide. .The mixture is refluxed under nitrogen for 18 hours; then 50 mg. of selenium dioxide is added and the mixture is refluxed an additional 24 hours. The product is filtered, and the filtrate evaporated to dryness. The residue is extracted with ethyl acetate and the extract is washed successively with aqueous sodium bicarbonate, water, dilute hydrochloric acid and water, and then dried over magnesium sulfate. The extract is treated with activated charcoal and then concentrated to dryness. Crystallization of the residue gives 17a-chloroethyny1-l,4-androstadiene-17fi-ol- '3-one acetate.

In accordance with the above procedures, but starting with the 1700 bromoethynyl 4 androstene-17fi-ol-3-one acetate in place of the 17a-chloroethynyl-4-androstene- 17,8-ol-3-one acetate, there is obtained the 17a-bromoj ethynyl-l,4-androstadiene-17,8-ol-3-one acetate.

Corynebacterium simplex (ATCC 6,946) is inoculated from a slant to 250 ml. shake flasks containing a medium having the composition: 1 g./liter yeast extract (Difco). After an 18 hour growth phase at 28 C., 10 mg. of 17achloroethynyl-4-androstene-17fi-ol-3-one acetate is added to each flask as a dimethylformamide solution mg./ ml). After a 24 hour transformation period at 28 C., the cells are centrifuged, followed by three ethyl acetate extracts of the cell-free broth. The extracts are combined and concentrated in vacuo. The 17a-chloroethynyl-1,4-

1 7 androst-adiene 17,6-ol-3-one acetate is crystallized directly from the concentrate. Paper chromatography of the product in a system utilizing formamide as the stationary phase and chloroform-benzene (1:1) as the mobile phase indicates that the product possesses a polarity slightly greater than the substrate.

Septomyxo afiinis (ATCC 6,737) is inoculated from a slant into 250 ml. shake flasks containing 50 ml. of the following medium: 2% Ed-amin (Sheffield Farms), 5% glucose, 0.5% corn steep liquor. After a 48 hour in- 'cubation at 28 C., mg. of 170t-ChlOIOCthYHYl-4-2l'ldl0- stene-17fi-ol-3-one acetate is added to each shake flask as a dimethylformamide solution (100 mg./ml.). After a conversion period of 24 hours, the cells are removed by filtration, followed by three successive extractions with equal volume of ethyl acetate. The extracts are combined and concentrated in vacuo.

The product is re-acetylated by treatment with acetic anhydride and pyridine, and then purified by recrystallization to give the Net-chloroethynyl-1,4-androstadiene- 17,6-0l-3-one acetate. Descending paper chromatography of the product in a system using formamide as the stationary phase, and chloroform as the mobile phase, shows some of the steroid substrate, but is largely the somewhat more polar A'-dehydrogenation product.

In accordance with the above procedures, but using the 17a-bromoethynyl-4-androstene-17B-ol-3-one acetate in place of the 17a-chloroethynyl-4-androstene-175-01-3- one acetate, there is obtained the 17a-bromoethynyl-L4- androstadiene-17fl-0l-3-one acetate.

Example 12 A mixture of 500 mg. of the 17a-chloroethynyl-4-androstene-17fl-ol-3-one, 10 ml. of dimethylformamide, ml. of methyl iodide, and 1.5 girls. of silver oxide is stirred at room temperature for 4 days. An additional /2 gm. of silver oxide is added at the end of each day. One hundred ml. of chloroform is then added to the reaction mixture, which is then stirred for one hour, filtered, and the filtrate is evaporated to dryness. The residual oil is chromatographed with acid-washed alumina and eluted with mixtures of ether and petroleum ether to give 17a-chloroethynyl-4-androstene-17fi-methoxy-3-one.

In accordance with the above procedures, but starting with the 17a-bromoethynyl-4-androstene-17fi-ol-3-one in place of the 17:x-chloroethynyl-4-androstene-17fi-ol-3-one, there is obtained the 17a-bromoethynyl-4-androstene- 17fi-methoxy-3-one.

Example 13 To 100 mg. of 17a-chloroethynyl-4-androstene-17flmethoxy-3-one in 5 ml. of t-butanol and 0.1 ml. of acetic acid is added 50 mg. of selenium dioxide. The mixture is refluxed under nitrogen for 18 hours; then 50 mg; of selenium dioxide is added and the mixture is refluxed an additional 24 hours. The product is filtered, and the filtrate evaporated to dryness. The residue is extracted with ethyl acetate and the extract is washed successively with aqueous sodium bicarbonate, water, dilute hydrochloric acid and water, and then dried over magnesium sulfate. The extract is treated with activated charcoal and then concentrated to dryness. Crystallization of the residue from a mixture of acetone and ether gives 17achloroethynyl-1,4-androstadiene-17,8-methoxy-3-one.

Septomyxa afiinis (ATCC 6,737) is inoculated from a slant into 250 ml. shake flasks containing 50 ml. of the following medium: 2% Edamin (Shel-field Farms), 5% glucose, and 0.5% corn steep liquor. After a 48 hour incubation at 28 C., 10 mg. of 17a-chloroethynyl-4- androstene-17B-methoxy-3-one is added to each shake flask as a dimethylformamide solution (100 mg./ml.). After a conversion period of 24 hours, the cells are removed by filtration, followed by three successive extrac tions with equal volume of ethyl acetate. The extracts are combined and concentrated in vacuo.

equal volume of ethyl acetate.

The 17u-chloroethynyl1,4-androstadiene-17B-methoxy- 3-one is readily crystallized from the concentrate. Descending paper chromatography of the product in a system using formamide as the stationary phase and chloroform as the mobile phase, shows some of the steroid substrate, but is largely the somewhat more polar A-dehydrogenation product.

Bacillus sphaericus (ATCC 12,488) is inoculated from a slant into 250 ml. shake flasks containing 50 ml. of the following medium: 2% Edamin (Shefiield Farms), 5% glucose, and 0.5% corn steep liquor. After a 24 hour incubation at 28 C., 10 mg. of l7a-chloroethynyl-4-androstene-l7fi-methoxy-3-one is added to each shake flask as a dirnethylformamide solution mg./rnl.).v After a conversion period of 24 hours, the cells are removed by filtration, followed by three successive extractions with The extracts are combined and concentrated in vacuo.

The Not-chloroethynyl-1,4-androstadiene-l7fi-methoxy- 3-one, is readily crystallized from the concentrate. Descending paper chromatography of the product in a system using formamide as the stationary phase and chloroform as the mobile phase, shows some of the steroid substrate, but is largely the somewhat more polar A'-de hydrogenation product.

In accordance with the above procedures, but using the 170: bromoethynyl-4-androstene 17,8 methoxy-B-one in place of the 170: chloroethynyl 4 androstene-17/3-methoxy-3-one, there is obtained the 17a-br-omoethynyl-1,4- androstadiene-17,8-methoxy-3-one.

Example 14 A mixture of 1 g. of 17 x-chl0roethynyl-4-androstene l7 8-ol-3-one, 10 ml. of acetic anhydride and 100 mg. of p-toluenesulfonic acid is heated on the steam bath for one hour and allowed to stand overnight at room temperature. It is then poured into ice water and left to stand at room temperature for one half hour. The reaction mixture is then extracted with ether. The ether extract is washed with water and aqueous sodium bicarbonate, dried, and concentrated to yield the crude 17achloroethynyl 3,5 androstadiene 3,175 diol diacetate. The product, crystallized from petroleum ether, has a melting point of 13l C. The analysis of a'sample which has a melting point of -136" C. is: C 69.75; H, 7.23. Calculated C, 69.67; H, 7.25.

To a solution of 200 mg. of the 17a-chloroethynyl-3,5- 'androstadiene-3,17,8-diol-diacetate dissolved in 2 ml. of acetic acid is added with stirring, 56 ml. of N-chlorosuccinimide and 2 ml. of tetrahydrofuran containing 5% of dry HCl. The reaction is stirred at room temperature for 2 /2 hours. Sodium bicarbonate is added and the reaction mixture is extracted with ether. The ether extracts are dried and concentrated. The material is chromatographed over acid-Washed alumina, and eluted with ether-petroleum ether mixtures, to give the 6achloro-l7a-chloroethynyl-4-androstene-17,8-01-3-one acetate. The analytical sample is crystallized from a mix ture of methylene chloride-ether and has the following properties: M.P. 220-230 C.

Analysis.Calculated: C, 65.26; H, 6.67; Cl, 16.75. Found: C, 65.80; H, 6.74; CI, 17.86.

In accordance with the above procedures, but starting with the 17a-bromoethynyl-4-androstene -17fl-ol-3-one in place of the- 17a-chloroethynyl-4-androstene-173-ol-3- one, there is obtained as intermediate, the 17a-bromoethynyl-3,5-androstadiene-3,17B-diol-diacetate, and as product, the 6a-chloro-17a-bromoethynyl-4-andro'stenea 17/ -ol-3-one acetate.

Example 15 To 100 mg. of 6a-chloro-l7a-chloroethynyl-4-androstene-l7fl-ol-3-one acetate in 5 ml. of t-butanol and 0.1 ml. of acetic acid is added 50 mg. of selenium dioxide.

'is refluxed an additional 24 hours.

39 The mixture is refluxed under nitrogen for 18 hours; then 50 mg. of selenium dioxide is added and the mixture The product is filtered, and the filtrate evaporated to dryness. The residue is extracted with ethyl acetate and the extract is Washed successively with aqueous sodium bicarbonate, ammonium sulfide, dilute ammonia water, water, dilute hydrochloric acid and water, and then dried over magnesium sulfate. The extract is treated with activated charcoal and then concentrated to dryness. Crystallization of the residue from a mixture of acetone and ether gives 6a-chloro-17a-chloroethynyl-1,4androstadiene-17,8- ol-3-one acetate.

In accordance with the above procedures, but starting with the 6ut-chloro-17u-bromoethynylt-androstene-1718- ol-3-one acetate in place of the 6OL-ChlOI'O-17u2-ChlOrO' ethynyl-4-androstene-17 8-ol-3-one acetate there is obtained the 6oc-ChlOI'O-170t-b1OIIlO6lhynyl- 1 ,4-androstadiene- 17fi-ol-3-one acetate.

Corynebacterium simplex (ATCC 6,946) is inoculated from a slant to 250 ml. shake asks containing a medium having the composition: 1 g./liter yeast extract (Difco). After an 18 hour growth phase at 28 C., 10 mg. of 60achloro-17wchloroethynyl-4-androstene-17fl-ol-3-one acetate is added to each flask as a dirnethylformamide solution (100 mg./ml.). After a 24 hour transformation period at 28 C., the cells are centrifuged, followed by three ethyl acetate extracts of the cell-free broth. The extracts are combined and concentrated in vacuo. The

6ot-chloro-17a-chloroethynyl-1,4-androstadiene-1779-ol 3- i one acetate is crystallized directly from the concentrate. Paper chromatography of the product is a system utilizing formamide as the stationary phase and chloroformbenzene (1:1) as the mobile phase indicates that the product possesses a polarity slightly greater than the substrate.

Septomyxa afiinis (ATCC 6,737) is inoculated from a slant into 250 ml. shake flasks containing 50 ml. of the following medium: 2% Edamin (Sheffield Farms), glucose, and 0.5% corn steep liquor. After a 48 hour incubation at 28 C., mg. of 6oc-Cl1lOIO-l7ez-Chl01'0- ethynyl-4-androstene-17fi-ol-3-one acetate is added to each -shake flask as a dimethylformamide solution (100 mg./ ml.). After a conversion period of 24 hours, the cells are removed by filtration, followed by three successive extractions with equal volume of ethyl acetate. The extracts are combined and concentrated in vacuo. The product is re-acetylated by treatment with acetic 'anhydride and pyridine, and then purified by recrystallization to give the 6u-chloro-17a-chloroethynyl-1,4-andro- 'stadiene-17,6-ol-3one acetate, is readily crystallized from "the concentrate. Descending paper chromatography of the product in a system using formamide as the stationary phase and chloroform as the mobile phase, shows some of the steroid substrate, but islargely the somewhat more polar A'-dehydrogenation product.

In accordance with the above procedures, but using the 6ot-chloro-17a-bromoethynyl-4-androstene-17 13-01-3 one acetate in place of the 6oc-Cl'1l0f0-17oc-ChlOI'06thYI1Yl-4- andro'st'ene-17fi-ol-3 one acetate, there is obtained the 6u-chloro-17ot-bromoethynyl-1,4-androstadiene-17,8-ol 3- one acetate.

Example 16 A mixture of 1 g. of 17e-chloroethynyl-4-androstene- 17,8-methoxy-3-one (Example 10), 10 ml. of acetic an- :hydride and 100' mg. of p-toluenesulfonic acid is heated on the steam bath for one hour and allowed to stand overnight at room temperature. It is then poured into ice water and left to stand at room temperature for one half hour. The reaction mixture is then extracted with ether. The ether extract is Washed with water and aqueous sodium bicarbonate, dried, and concentrated to yield the 17ot-chloroethyny1-3,5-androstadiene-17fi-methoxy-3-ol acetate.

To a solution of 200 mg. of the 17tx-chloroethynyl-3,5- androsta-diene-l7,8-methoxy-3-ol-a-cetate dissolved in 2 ml. of acetic acid is added, with stirring, 56 ml. of N-chlorosuccinimide and 2 ml. of tetrahydrofuran containing 5% of dry HCl. The reaction is stirred at room temperature for 2 /2 hours. Sodium bicarbonate is added. The reaction mixture is then extracted with ether. The ether extracts aredried and concentrated. The material is chromatographed over acid-washed alumina, and eluted with ether-petroleum ether mixtures to give 60t-Chl010- 17m-chloroethynyl-4-androstene-17,8-methoxy-3-one.

In accordance with the above procedures, but starting with the 17a-bromoethynyl-4-androstene-17fl-methoxy- 3-one in place of the 17a-chloroethynyl-4-androstene-17;?- rnethoxy-3-one, there is obtained as intermediates, the 17d chloroethynyl 3,5-androstadiene-l7p-methoxy-3-olacetate, and as product, the 6a-tchloro-17a-chloroethynyl- 4-androstene-17/3-methoxy-3-one.

Example 17 To mg. of 17a-chloroethynyl-4-androstene-17B- methoxy-3-one in 5 ml. of t-butanol and 0.1 ml. of acetic acid is added 50 mg. of selenium dioxide. The mixture is refluxed under nitrogen for 18 hours; then 50 mg. of selenium dioxide is added and the mixture is refluxed an additional 24 hours. The product is filtered, and the filtrate evaporated to dryness. The residue is extracted with ethyl acetate and the extract is washed successively with aqueous sodium bicarbonate, ammonium sulfide, dilute ammonia water, water, dilute hydrochloric acid and water, and then dried over magnesium sulfate. The extract is treated with activated charcoal and then concentrated to dryness. Crystallization of the residue from a mixture of acetone and ether gives 17achloroethnyl-1,4- androstadiene-l7fi-methoxy-3-one.

Septomyxa afiinis (ATCC 6,737) is inoculated from .a slant into 250 ml. shake flasks containing 50 m1. of the following medium: 2% Edamin (Sheffield Farms), 5% glucose, and 0.5% corn steep liquor. After a 48 hour incubation at 28 C., 10 mg. of 17achloroethynyl-4-androstene-17fl-methoxy-3-one is added to each shake flask as a dimethylformamide solution (100 mg./ml.). After a conversion period of 24 hours, the cells are removed by filtration, followed by three successive extractions with equal volume of ethyl acetate. The extracts are combined and concentrated in vacuo.

The 17ot-chloroethynyl-1,4-androstadiene-17fi-methoxy- 3-one is readily crystallized from the concentrate. -Descending paper chromatography of the product in a system using formamide as the stationary phase and chloroform as the mobile phase, shows some of the steroid substrate, but is largely the somewhat more polar A-dehydrogenation product.

Bacillus sphaericus (ATCC 12,488) is inoculated from a slant into 250 ml. shake flasks containing 50 ml. of the following medium: 2% Edamin (Sheffield Farms), 5% glucose, and 0.5% corn steep liquor. After a 24 hour incubation at 28 C., 10 mg. of 17a-chloroethynyl-4- androstene-17/3-methoxy-3-one is added to each shake flask as a dimethyl-formamide solution 100 mg./ml.). After a conversion period of 24 hours, the cells are removed by filtration, followed by three successive extrac tions with equal volume of ethyl acetate. The extracts are combined and concentrated in vacuo.

The 17a-chloroethynyl-1,4-androstadiene-17fl-methoxy- 3-one is readily crystallized from the concentrate. Descending paper chromatography of the product in a system using formamide as the stationary phase and chloroform as the mobile phase, shows some of the steroid substrate, but is largely the somewhat more polar A'-dehydrogenation product.

In accordance with the above procedures, but using the 17a-bromoethynyl-4-androstene-17,6-methoxy-3-one in place of the l7ot-chloroethynyl4-androstene-17fl-methoxy- 21 3-one, there is obtained the 17e-bromoethynyl-1,4-androstadiene-17,8-methoxy-3-one.

Example 18 A suspension of 1 g. of 17a-chloroethynyl-4-androstene- 17,8-ol-3-one and 2.4- g. of chloranil in 30 ml. of ethyl acetate and 6 ml. of acetic acid is stirred and refluxed for 16 hours. The reaction mixture is cooled and filtered. The product is washed sequentially with aqueous bisulfite, aqueous potassium hydroxide and water. Chromatography yields 17a-chloroethynyl-4,6-androstadiene-1713-0 3-0ne which on crystallization from ethyl acetate has the following properties: M.P. 209-211 C.: [x -159 (C 0.9 Cl-lCl Found:

U.V. M33 240 me, E% 377 A solution of 140 mg. of the oxide in ml. of 0.4 N hydrogen chloride in chloroform is allowed to stand at room temperature for 5.5 hours. The solution is poured onto ice. Aqueous sodium bicarbonate solution is added and the product is extracted with chloroform. The organic layer is washed with water, dried and concentrated. Crystallization from ether affords 84 mg. of 6-chloro-17- chloroethynyl-4,6-androstadiene-17fi ol-3-one, MP. 195- 205 C. The sample for analysis is crystallized from methanol and has the following properties: MP. 203- 208 C., 04 96 (C 1.0 CHCl U.V. its? 285 mu, 621,400

Calculated for C21H2402C12:

Found: C, 66.28; H, 6.62.

In accordance with the above procedures, but starting with the 17a-bnornoethynyl-4-androstene-17,8-ol-3 -one in place of the 17u-chloroethnyl-4-androstene-17B-ol-3-one, there is obtained as intermediate, the 17a-bromoethynyl-4- androstene-17;3-ol-3-one-6,7-oxide, and as product, the 6- chloro-17-bromoethynyl-4,6-androstadiene-17fi-ol-3-one.

A solution of 125 mg. of 6-chloro-l7a-chloroethynyl-4, 6-androstadiene-17B-ol-3-one in 1.8 ml. of pyridine and 1.5 ml. of acetic anhydride is heated on the steam bath overnight. The solution is poured into ice water and extracted with ether. The ether solution is washed sequentially with dilute hydrochloric acid, water and sodium bicarbonate solution. Chromatography on 7.0 g. of acid-washed alumina, and elution with etherzpetroleum ether mixtures affords 56 mg. of 6-Chl01'O17a-Chl010 ethynyl-4,6-androstadiene-17fi-ol-3-one acetate. The sam pie for analysis is crystallized from ether and has the following properties: M.P. 203208 C., (1 -98 (C 0.9 CHCI U.V. APLEQ 284 mu, 621,300

Calculated for C H O Cl C, 65.57; H, 6.21. Found: C, 66.06; H, 6.16. I

In accordance with the above procedures, but starting with the 6-chloro-17a-bromoethynyl-4,6-androstadienel7fl-ol-3-one in place of the 6-chloro-17a-chloro-ethynyl- 4,6-androstadiene-1713-01-3one, there is obtained the 6- chloro 171x bromoethynyl-4,6-androstadiene-176-01-3- one acetate.

22 Example 19 To mg. of 6tx-chlor0-17a-chloroethynyl 4,6 androstadiene-17fl-ol-3-one actate in 5 ml. of t-butanol and 0.1 ml. of acetic acid is added 50 mg. of selenium dioxide. The mixture is refluxed under nitrogen for 18 hours; then 50 mg. of selenium dioxide is added and the mixture is refluxed an additional '24 hours. The product is filtered, and the filtrate evaporated to dryness. The residue is extracted with ethyl acetate and the extract is washed successively with aqueous sodium bicarbonate, Water, dilute hydrochloric acid and water, and then dried over magnesium sulfate. The extract is treated with activated charcoal and then concentrated to dryness. Crystallization of the residue give 6-chloro a chloroethynyl-l,4,6-androstatriene-17fl-ol-3-one actate.

Corynebaclerium simplex (ATCC 6,946) is inoculated from a slant to 250 ml. shake flasks containing a medium having the composition: 1 g./liter yeast extract (Difco). After an 18 hour growth phase at 28 C., 10 mg. of 6 chloro 17a chloroethynyl 4,6 -androstadiene-17fi-ol- 3-one actate is added to each flask as a dimethylforrnamide solution (100 rng./ml.). After a 24 hour transformation period at 28 C., the cells are centrifuged, followed by three ethyl acetate extracts of the cell-free broth. The extracts are combined and concentrated in vacuo. The 6-chloro 17cc chloroiethylnyl-l,4,6-androstatrienel7fl-ol 3-one acetate is crystallized directly from the concentrate. Paper chromatography of the product is a system utilizing formamide as the stationary phase and chloroformabenzene (1:1) as the mobile phase indicates that the product possesses a polarity slightly greater than the substrate.

Septomyxa afiinis (ATCC 6,737) is inoculated from a slant into 250 ml. shake flasks containing 50 ml. of the following medium: 2% Edamin (Sheffield Farms), 5%

glucose, and 0.5% corn steep liquor. After a 48 hour incubation at 28 C., 10 mg. of 6-Chl'01'O-17oc-Chl0f0- ethynyl-4,6androstadiene-17/3-o1-3-one acetate is added to each shake flask as a dimethylformamide solution (100 mg./ml.). After a conversion period of 24 hours, the cells are removed by filtration, followed by three successive extractions with equal volume of ethyl acetate. The extracts are combined and concentrated in vacuo.

The product is re-acetylated by .treatment with acetic anhydride and pyridine, and then purified by recrystallization to give the 6-chloro -17a chloroethy nyl-1,4,6- 'androstatriene 17B o1 3 one acetate. Descending paper chromatography of the product in a system using formamide as the stationary phase and chloroform as the mobile phase, shows some of the steroid substrate, but is largely the somewhat more polar A-dehydrogenation product.

In accordance with the above procedures, but using the 6-chloro-l7u-bromoethyn-yl 4,6 androstadiene-17 3- o -3-'one in place of the 6-chloro 17a chloroethynyl- 4,6-androst-adiene 17B -ol-3-one, there is obtained 6'- chloro-l7a bromoethynyl 1,4,6 androsta-triene-lm ol- 3-one acetate.

Example 20 A mixture of 500 mg. of 6-chloro 170a chloroethynyl- 4,6-androstadiene-17 B-ol-3-one, 10 ml. of dimethylformamide, 20 ml. of methyl iodide, and 1.5 gms. of silver oxide is stirred at room temperature for 4 days. An additional /2 gm. of silver oxide is added at the end of each day. 100 ml. of chloroform is then added to the reaction mixture which is then stirred for one hour, filtered. The filtrate is then taken to dryness. The oil is chromatographed with acid-washed alumina and eluted with mixtures of ether and petroleum ether to give the 6-chloro 17a chlo-roethynyl 17,8 methoxy-4,6-androstadiene-3-one.

In accordance with the above procedures, "but starting with the 6-chloro 17a bromoethynyl 4,6 androstadiene-l7fl-ol-3-one in place of the 6-chloro-17a-chloro- 23 ethynyl-4,6-androstadiene-175-ol-3-one there is obtained the 6-chloro-17a-brom-oethynyl 17B methoxy-4,6-androstadiene-3-one.

Example 21 To 100 mg. of 6-chloro-17wchloroethynyl-17fi-methoxy-4,6-andnostadiene-3-on'e in 5 mil. of t-butanol and 0.1 ml. of acetic acid is added 50 mg. of selenium dioxide. The mixture is refluxed under nitrogen for 18 hours; then 50 mg. of selenium dioxide is added and the mixture is refluxed an additional 24 hours. The product is filtered, and the filtrate evaporated to dryness. The residue is extracted with ethyl acetate and the extract is washed successively with aqueous sodium bicarbonate, ammonium sulfide, dilute ammonia water, water, dilute hydrochloric acid and water, and then dried over magnesium sulfate. The extract is treated with activated charcoal and then concentrated to dryness. Crystallization of the residue from a mixture of acetone and ether gives the 6-chloro'17a-chloroethynyl 17,3 methoxy- 1,4, 6-androstatriene-3-one.

Septomyxa aflim's (ATCC 6,737) is inoculated from a slant into 250 ml. shake flasks containing 50 ml. of the following medium: 2% Edamin (Sheifield Farms), 5% glucose, and 0.5% corn steep liquor. After a 48 hour incubation at 28 C., 10 mg. of 6-Cl1'l0I0-17oc-Ohl0f0- ethynyl-17B-methoxy-4,6-androstadiene-3-one is added to each shake flask as a dimethylform-amide solution (100 rug/ml.). After a conversion period of 24 hours, the cells are removed by filtration, followed by three successive extractions with equal volume of ethyl acetate. The extracts are combined and concentrated in vacuo.

'The 6-chloro 17a chloroethynyl 17B rnethoxy- 1,4,6-androstatriene-3-one is readily crystallized from the concentrate. Descending paper chromatography of the product in a system using formamide as the stationary phase and chloroform as the mobile phase, shows some of the steroid substrate, but is largely the somewhat more polar Adehydrogenation product.

Bacillus sphaericus (ATCC 12,488) is inoculated from a slant into 250 ml. shake flasks containing 50 ml. of the following medium: 2% Edamin (Shefiield Farms), 5% glucose, and 0.5% corn steep liquor. After a 24 hour incubation at 28 C., 10 mg. of 6-chloro-l7a-chloroethynyl-4-, 6-androstadriene 17,9 methoxy-3-one is added to each shake flask as a dimet-hylformamide solution (100 V mg./ml.). After a conversion period of 24 hours, the cells are removed by filtration, followed by three successive extractions with equal volume of ethyl acetate. The extracts are combined and concentrated in vacuo.

The 6-chloro-lla-chloroethynyl-17B-methoxy-1,4,6-androstatriene-3-one is readily crystallized from the concentrate. Descending paper chromatography of the product in a system using formamide as the stationary phase and chloroform as the mobile phase, shows some of the steroid substrate, but is largely the somewhat more polar A'-dehydrogenation product.

In accordance with the above procedures, but using the 6 chloro 17a bromoethynyl 4,6-androstadiene-17B- methoxy-B-one in place of the 6-chloro-l7oc-chloroethynyl- 4,6-androstadiene-17fi-methoxy-3-one, there is obtained the 6 chloro-17a-brom-oethynyl-1,4,6-androstatriene-17B- methoxy-3-one.

Example 22 A solution of the 17u-chloroethynyl-3,S-androstadiene- 36,17B-diol diacetate (Example 10) in aqueous tetrahydrofuran is treated with a slow stream of perchloryl fluoride for one hour and then allowed to stand at room temperature for an additional 2 hours. The reaction mixture is poured on ice and extracted with chloroform. The chloroform layer is washed with aqueous bicarbonate solution, dried and concentrated in vacuo. The crude material is dissolved in acetic acid saturated with gaseous hydrogen chloride and allowed to stand for one hour at room temperature. The reaction mixture is poured on ice bisulfi'te, aqueous potassium hydroxide and water.

and extracted with chloroform. The chloroform layer is washed with aqueous bicarbonate solution, dried and concentrated in vacuo. The concentrate is chromatographed on acid-washed alumina to yield the 6a-fluoro-17a-chlor0- ethynyl-4-androstene-l7fiol-3-one acetate.

In accordance with the above procedures, but starting with the l7a-bromoethynyl-3,5-androsta-diene-3B,17B-diol diacetate in place of the 17u-chloroethynyl-3,S-androstadiene-3B,l7fi-diol diacetate there is obtained the Goa-fluoro- 17u-brom-oethynyl-4-androstene-l7fl-ol-3-one acetate.

Example 23 To mg. of 6a-fiuoro-17a-chloroethynyl-4-androstene-l7fi-ol-3-one acetate in 5 m1. of t-butanol and 0.1 ml. of acetic acid is added 50 mg. of selenium dioxide. The mixture is refluxed under nitrogen for 18 hours; then 50 mg. of selenium dioxide is added and the mixture is refluxed an additional 24 hours. The product is filtered, and the filtrate evaporated to dryness. The residue is extracted with ethyl acetate and the extract is washed successively with aqueous sodium bicarbonate, Water, dilute hydrochloric acid and Water, and then dried over magnesium sulfate. The extract is treated with activated charcoal and then concentrated to dryness. Crystallization of the residue from a mixture of acetone and ether gives 60- fluoro 17a-chloroethynyl-1,4-androstadiene-17fi-0l-3-one acetate.

Corynebacterium simplex (ATCC 6,946) is inoculated from a slant to 250 ml. shake flasks containing a medium having the composition: 1 g./ liter yeast extract, Difco). After an 18 hour growth phase at 28 C., 10 mg, of Goo fluoro 17oochloroethynyl-4-androstene-17B-ol-3-one acetate is added to each flask as a dimethylformamide solution (100 mg./ml.). After a 24 hour transformation period at 28 C., the cells are centrifuged, followed by three ethyl acetate extracts of the cell-free broth. The extracts are combined and concentrated in vacuo. The 6afiuoro l7a-chloroethynyl-1,4-androstadiene-l7B-ol-3-one acetate is crystallized directly from the concentrate. Paper chromatography of the product is a system utilizing formamide as the stationary and chloroform-benzene 1:1) as the mobile phase indicates that the product possesses a polarity slightly greater than the substrate.

Septomyxa afiinis (AT CC 6,737) is inoculated from a slant into 250 ml. shake flasks containing 50 ml, of the following medium: 2% Edamin (Shetfield Farms), 5% glucose, and 0.5% corn steep liquor. After a 48 hour incubation at 28 C., 10 mg. of 6rx-fluoro-17a-chloroethynyl-4-androstene-17fi-ol-3-one acetate is added to each shake flask as a dimethylformamide solution (100 mg./ ml.). After a conversion period of 24 hours, the cells are removed by filtration, followed by three successive extractions with equal volume of ethyl acetate. The extracts are combined and concentrated in vacuo.

The product is re-acetylated by treatment with acetic anhydride and pyridine, and then purified by recrystallization to give the 6a-fiuoro-17a-chloroethynyl-1,4-androstadiene-l7B ol-3 one acetate. Descending paper chromatography of the product in a system using formamidc as the stationary phase and chloroform as the mobile phase, shows some of the steroid substrate, but is largely the somewhat more polar A'-dehydrogenation product,

In accordance with the above procedures, but using the 6m fluor-o 17a-bromoethynyl-4-androstene-l7 8-ol-3-one awtate in place of the or-fluoro-l7a-chloroethynyl-4-androstene-17B-ol-3-one acetate there is obtained the 6afluoro l7a-bromoethynyl-1,4-androstadiene-17/8-ol-3-one acetate.

Example 24 A suspension of 1 g. of 6a-fluoro-17a-chloroethynyl-4- androstene-ol-3-one acetate 2.4 g. chloranil, 30 ml. ethyl acetate and 6 ml. of acetic acid is stirred and refluxed for 16 hours. The reaction mixture is cooled and filtered. The product is washed sequentially with aqueous The 25 organic layer is dried and concentrated in vacuo. Chromatography yields 6 fluoro l7a-chloroethynyl-4,6-androstadiene-17B-ol-3-one acetate.

In accordance with the above procedures, but starting with the 6a-fluoro-l7a-bromoethynyl-4-androstene-17fl-ol- 3-one acetate in place of the 6a-fluoro-l7a-chloroethynyl- 4-androstene-175-01-3-one acetate there is obtained the 6- fluoro 17a-bromoethynyl-4,6-androstadiene-l7fl-ol-3-one acetate.

Example 25 To 100 mg. of 6-fluoro-l7a.-chloroethynyl-4,6-androstadiene-17fi-ol-3-one acetate in 5 ml. of t-butanol and 0.1 m1. of acetic acid is added 50 mg, of selenium dioxide. The mixture is refluxed under nitrogen for 18 hours; then 50 mg. of selenium dioxide is added and the mixture is refluxed an additional 24 hours. The product is filtered, and the filtrate evaporated to dryness. The residue is extracted with ethyl acetate and the extract is washed successively wtih aqueous sodium bicarbonate, water, dilute hydrochloric acid and water, and then dried over magnesium sulfate. The extract is treated with activated charcoal and then concentrated to dryness. Crystallization of the residue gives 6-fluoro-l7a-chloroethynyl-1,4,6- androstatriene-l7 a-ol-3-one acetate.

In accordance with the above procedures, but starting with the 6 fluoro 17u-bromoethynyl-4,6-androstadiene- 17fi-ol-3-one acetate in place of the 6flu0I'O-l7oc-ChlOIG- ethynyl-4,6-androstadiene-17,8-01-3-one acetate, there is obtained the 6 fluoro-17a-bromoethynyl-1,4,6-androsta triene-17,B-ol-3-one acetate.

Corynebacterium simplex (ATCC 6,946) is inoculated from a slant to 250 ml. shake flasks containing a medium having the composition: 1 g./liter yeast extract (Difco). After an 18 hour growth phase at 28 C., mg. of 6- fluoro 17a-ch-loroethynyl-4,6-audrostadiene-17,8-01-3-one acetate is added to each flask as a dimethylformamide solution (100 mg./ml.). After a 24 hour transformation period at 28 C., the cells are centrifuged, followed by three ethyl acetate extracts of the cell-free broth. ,The extracts are combined and concentrated in vacuo. The 6- fluoro-l7u-chloroethynyl-1,4,6 androstatriene 17B ol- 3-one acetate is crystallized directly from the concentrate. Paper chromatography of the product in a system utilizing formamide as the stationary phase and chloroform benzene (1:1) as the mobile phase indicates that the product possesses a polarity slightly greater than the substrate.

Septomyxa afifnis (ATCC 6,737) is inoculated from a slant into 250 ml. shake flasks containing 50 ml. of the following medium: 2% Edamin (Sheffield Farms), 5% glucose, and 0.5% corn steep liquor. After a 48 hour incubation at 28 C., 10 mg. of 6-fluoro-17a-chloroethynyl- 4,6-androstadiene-1713-01-3-one acetate is added to each shake flask as a dimethylformamide solution (100 mg./ ml.). After a conversion period of 24 hours, the cells are removed by filtration, followed by three successive extractions with equal volume of ethyl acetate. The extracts are combined and concentrated in vacuo.

The product is re-acetylated by treatment with acetic anhydride and pyridine, and then purified by recrystallization to give the 6a-fluoro-17a-chloroethynyl-l,4,6-andro statriene-17l9-ol-3-one acetate. Descending paper chromatography of the product in a system using formamide as the stationary phase and chloroform as the mobile phase, shows some of the steroid substrate, but is largely the somewhat more polar A'-dehydrogenation product.

In accordance with the above procedures, but using the 6 fluoro l7a-bromoethynyl4,6-androstadiene-175-01-3- one acetate in place of the 6-fluoro-17a-chloroethyny1- 4,6-androstadiene-175-01-3-one acetate, there is obtained the 6 fluoro-17a-bromoethynyl-1,4-6-androstatriene-176- ol-3-one acetate,

26 Example 26 A solution of the l7a-chloroethynyl-3,5-androstadienel7fl-methoxy-3B-ol in aqueous tetrahydrofuran is treated with a slow stream of perchloryl fluoride for one hour and then allowed to stand at room temperature for an additional 2 hours. The reaction mixture is poured on ice and extracted with chloroform. The chloroform layer is washed with aqueous bicarbonate solution, dried and concentrated in vacuo. The crude material is dissolved in acetic acid saturated with gaseous hydrogen chloride and allowed to stand for one hour at room temperature. The reaction mixture is poured on ice and extracted with chloroform. The chloroform layer is washed with aqueous bicarbonate solution, dried and concentrated in vacuo. The concentrate is chromatographed on acid-wased alumina to yield the 6a-fluoro-17a-chloroethynyl-4-androstene-l7fi-methoxy-3-one.

In accordance with the above procedures, but starting with the 17u-bromoethynyl-3,S-androstadiene-17fl-methoxy-3B-ol in place of the 17a-chlor0ethynyl-3,5-androstadiene-l7fl-methoxy-3fi-ol, there is obtained the 60:- fiuoro 17a bromoethynyl 4 androstene-l7fi-rnethoxy- 3-one.

Example 27 To mg. of 6a-fiuoro-l7a-chloroethynyl-4-androstene-l7fl-methoxy-3-one in 5 ml. of t-butanol and 0.1 ml. of acetic acid is added 50 mg. of selenium dioxide. The mixture is refluxed under nitrogen for 18 hours; then 50 mg. of selenium dioxide is added and the mixture is refluxed an additional 24 hours. The product is filtered, and the filtrate evaporated to dryness. The residue is extracted with ethyl acetate and the extract is washed successively with aqueous sodium bicarbonate, water, dilute hydrochloric acid and water, and then dried over magnesium sulfate. The extract is treated with activated charcoal and then concentrated to dryness. Crystallization of the residue gives 60: fluoro-l7a-chloroethynyl-l,4-androstadiene-17fl-methoxy-3-one.

Septomyxa afiinis (ATCC 6,737) is inoculated from a slant into 250 ml. shake flasks containing 50 ml. of the following medium: 2% Edamin (Sheflield Farms), 5% glucose, and 0.5% corn steep liquor. After a 48 hour incubation at 28 C., 10 mg. of 6a-fluoro-17u.-chloroethynyl- 4-androstene-17,8-methoxy-3-one is added to each shake flask as a dimethylformamide solution (100 mg./ml.). After a conversion period of 24 hours, the cells are re moved by filtration, followed by three successive extractions with equal volume of ethyl acetate. The extracts are combined and concentrated in vacuo.

The 6a-fluoro-l7a-chloroethynyl-1,4-androstadiene-17B- methoxy-3-one is readily crystallized from the concentrate. Descending paper chromatography of the product in a system using formamide as the stationary phase and chloroform as the mobile phase, shows some of the steroid substrate, but is largely the somewhat more polar A-dehydrogenation product.

Bacillus s haericus (ATCC 12,488) is inoculated from a slant into 250 ml. shake flasks containing 50 ml. of the following medium: 2% Edamin (Sheffield Farms), 5% glucose, and 0.5% corn steep liquor. After a 24 hour incubation at 28 C., 10 mg. of 6oc-fl1lOIO-17cc-Chl0l0- ethynyl-4-androstene-17fl-methoxy-3-one is added to each shake flask as a dimethylformamide solution (100 mg./ ml.). After a conversion period of 24 hours, the cells are removed by filtration, followed by three successive extractions with equal volume of ethyl acetate. The extracts are combined and concentrated in vacuo.

The 6a-fluoro-17a-chloroethynyl-1,4-androstadiene-l7flmethoxy-B-one is readily crystallized from the concentrate. Descending paper chromatography of the product in a system using formamide as the stationary phase and chloroform as the mobile phase, shows some of the steroid substrate, but is largely the somewhat more polar A-dehydrogenation product.

In accordance with the above procedures, but using the 6a-fluoro-17a-bromoethynyl-4-androstene-17fi-methoxy-3 one in place of the 6 z-fluoro-17ot-chloroethynyl-4-androstene-17B-methoxy-3-one, there is obtained the 6ol-fluoro- 17a-bromoethnyl-l,4-androstadiene 17,8-rnethoxy-3-one.

Example 28 A suspension of 1 g. of 6a-flu0ro-17a-chloroethynyl-4- androstene-17/3-methoxy-3-one, 2.4 g. chloranil, 30 ml. ethyl acetate and 6 ml. of acetic acid is stirred and refluxed for 16 hours. The reaction mixture is cooled and filtered. The product is washed sequentially with aqueous bisulfite, aqueous potassium hydroxide and water. The organic layer is dried and concentrated in vacuo. Chromatography yields 6-fluoro-17m-chloroethynyl14,6-androstadiene-17B-methoxy-3-one.

Example 29 To 100 mg. of 6-fluoro-17u-chloroethynyl-4,6-androstadiene-17fi-methoxy-3-one in ml. of t-butanol and 0.1 ml. of acetic acid is added 50 mg. of selenium dioxide. The mixture is refluxed under nitrogen for 18 hours; then 50 mg. of selenium dioxide is added and the mixture is refluxed an additional 24 hours. The product is filtered, and the filtrate evaporated to dryness. The residue is extracted with ethyl acetate and the extract is washed successively with aqueous sodium bicarbonate, water, dilute hydrochloric acid and water, and then dried over magnesium sulfate. The extract is treated with activated charcoal and then concentrated to dryness. Crystallization of the residue gives 6-fluoro-17a-chloroethynyl-1,4,6- androstatriene-17B-methoxy-3-one.

Septomyxa afiinis (ATCC 6,737) is inoculated from a slant into 250 ml. shake flasks containing 50 ml. of the following medium: 2% Edamin (Sheffield Farms), 5% glucose, and 0.5% corn steep liquor. After a 48 hour incubation at 28 C., mg. of 6-fluoro-l7u-chloroethynyl-4,6-androstadiene-17,8-methoxy-3-one is added to each shake flask as a dimethylformamide solution (100 mg./ ml.). After a conversion period of 24 hours, the cells are removed by filtration, followed by three successive extractions with equal volume of ethyl acetate. The extracts are combined and concentrated in vacuo.

The 6-fluoro-17a-chloroethynyl-1,4,6 andnostatriene- 17fl-methoxy-3-one is readily crystallized from the concentrate. Descending paper chromatography of the product in a system using formamide as the stationary phase and chloroform as the mobile phase, shows some of the steroid substrate, but is largely the somewhat more polar A'-dehydrogenation product.

Bacillus sphaericus (ATCC 12,488) is inoculated from a slant into 250 ml. shake flasks containing 50 m1. of the following medium: 2% Edamin (Shefiield Farms), 5% glucose, and 0.5 corn steep liquor. After a 24 hour incubation at 28 C., 10 mg. of 6-fluoro-l7u-chloroethynyl-4,6-androstadiene-17B-methoxy-3-one is added to each shake flask as a dimethylformamide solution (100 mg./ ml.). After a conversion period of 24 hours, the cells are removed by filtration, followed by three successive extractions with equal volume of ethyl acetate. The extracts are combined and concentrated in vacuo.

The 6-fluoro-l7oa-chloroethynyl-1,4,6 andnostatriene- 17fl-methoxy-3-one is readily crystallized from the concentrate. Descending paper chromatography of the product in a system using formamide as the stationary phase and chloroform as the mobile phase, shows some of the steroid substrate, but is largely the somewhat more polar A'-dehydrogenation product.

In accordance with the above procedure, but using the 6a-fluoro-17a-bromoethynyl-4,6- androstadiene-17B-methoxy-3-one in place of the 6a-fluoro-17u-chloroethynyl-4,6- androstadiene-17B-methoxy-3-one, there is obtained the 6- fiuoro-lh-bromoethynyl-1,4,6 androstatriene-l7fi-methoxy-3-one.

28 Example 30 A solution of 100 mg. of the 17a-chloroethynyl-4- androstene-l7B-ol-3-one and 50 mg. of Lindlar catalyst in 10 cc. of ethyl acetate is treated with hydrogen until one mole of hydrogen has been absorbed. The mixture is filtered and concentrated. Chromatography yields the pure product 21-chloro-4,20-pregnadiene-17/3-ol-3-one.

In accordance with the above procedures, but starting with the 17a-brornoethynyl-4-androstene-17fi-o1-3-one in place of the 17a-chloroethynyl-4-androstene-l7/3-ol-3-one there is obtained the 2l-chloro-4,20-pregnadiene-175-01- 3-one.

A suspension of platinum oxide in 10 cc. of ethanol is reduced and 100 mg. of 17a-chloroethynyl-4-androstenel7fi-0l3-0ne is added. Reduction proceeds until two moles of hydrogen have been absorbed. The solution is filtered, concentrated and chromatographed on alumina to yield the 21-chloro-4-pregnene-17fl-ol-3-one.

In accordance with the above procedures, but starting with the 17a-bromoethynyl-4-androstene-17fl-ol-3-one in place of the 17a-chloroethynyl-4-androstene-17fi-ol-3-one is there is obtained the 21-chloro-4-pregnene-1713-01-3- one.

Example 31 A mixture of 1 g. of 17a-chl0roethynyl-19-nor-4-androstene-l7 8-ol-3-one, 10 ml. of acetic anhydride and 100 mg. of p-toluenesulfonic acid is heated on the steam bath for one hour and allowed to stand overnight at room temperature. It is then poured into ice water and left to stand at room temperature for one half hour. The reaction mixture is then extracted with ether. The ether extract is washed with water and aqueous sodium bicarbonate, dried, and concentrated to yield the crude 170cchloroethynyl-19-nor-3,5-androstadiene-3,17B-diol diacetate.

A solution of 8 grns. of 17a-chloroethynyl-19-nor-3,5- androstadiene-3,17B-diol diacetate in a mixture of 700 ml. of ethanol and 300 ml. of tetrahydrofuran is cooled to 10 C. and added dropwise, with occasional stirring, over a one hour period, to a cold (0 C.) solution of 18 g. sodium borohydride in 400 ml. of 80% ethanol, the reaction temperature not being allowed to exceed 5 C. After completion of the addition, the solution is held at 05 C. for an additional two hours. A solution of NaH PO is then added to adjust the pH to about 5. The mixture is then concentrated in vacuo to a small volume, diluted with water and extracted with chloroform. The extract is washed with water, dried and concentrated. The cencentrate is chromatographed over acidwashed alumina and eluated with ether-petroleum ether mixtures to give 17ot-chloroethynyl-19-nor-5-androstene- 35,17,8-diol-17-acetate.

Ten grams of 17u-chlor0ethynyl-19-nor-5-androstene- 3/3,175-diol'17-acetate in 150 ml. of tetrahydrofuran is treated with ml. of 0.9 m. monoperphthalic acid in ethyl acetate and allowed to stand overnight at room temperature. The reaction mixture is diluted with ethyl acetate and washed sequentially with aqueous sodium bicarbonate, sodium bisulfite, and sodium bicarbonate solution. The organic layer is dried and concentrated in vacuo. The product is fractionally crystallized from aqueous ethanol to yield the 17a-chloroethynyl-19-norandrostane-Bfl,l7fl-diol-5,6a-oxide-17-acetate.

Five grams of 17a-chloroethynyl-19-nor-androstane- 3;.8,17,6-diol-5,6a-oxide-l7-acetate in benzene is added to a reagent prepared from 3.4 g. of magnesium, 10 ml. of methyl iodide and 45 ml. of ether. The mixture is stirred and 70 ml. of solvent is removed by distillation. After refluxing for 5 hours, the mixture is cooled, acidified with dilute hydrochloric acid and the organic layer washed to neutrality. The organic phase is dried and concentrated in vacuo. Crystallization from aqueous ethanol gives the 6,8-methyl-1a-chloroethynyl-19-nor-androstane- 3 8,5a,17 8-tri0l.

The oxidizing reagent is preparedby diluting 2.7 g. of C and 2.3 ml. of concentrated sulfuric acid to 10 ml. with water. A solution of 1.90 g. of 6B-methyl-17achloroethynyl-19-nor-androstane-6B,5a,175-triol in 300 ml. of acetone is cooled to 0 and treated with 1.85 ml. of the oxidizing reagent. The solution is diluted with ice water and extracted with ether. The ether extract is washed sequentially with water, and aqueous sodium bicarbonate and then dried and concentrated in vacuo, to give 6B-methyl-l7a-chloroethynyl-l9-nor-andr0stane- 5oz,l7fl-di0l-3-0ne. The crude product, dissolved in 150 ml. of methanol, 75 ml. of l N sodium hydroxide is added and the mixture is stirred at room temperature under nitrogen for 24 hours. The mixture is concen trated to half volume under vacuo at 25 C. and then poured into ice water. The product is extracted with ether. The ether layer is washed with water, dried and concentrated. The concentrate is chromatographed on acid-washed alumina and'the product eluted with etherpetroleum ether mixtures to yield 6a-methyl-l7a-chlor0- ethynyl-19-nor-4-androstene-l7B-ol-3-one.

In accordance with the above procedures, but starting with the 17ot-bromoethynyl-19-nor-4-androstene-l7a-ol-3- one in place of the 17a-chloroethynyl-19-nor-4androstene- 17fl-ol-3-one there is obtained as intermediates, the 17abromoethynyl-l9-nor-3,5-androstadiene-3,l7fi-diol diacetaite, l7a-bromoethynyl 19-nor-5-androstene-3fl,17,B-diol, 17a bromoethynyl-19-nor-androstane 3B,17fi-diol-5,6uoxide-l7-acetate, nor-androstane-3/3,5a,l7fi-triol, and as product, the 60- methyl 17a bromoethynyl-19-nor-4-androstene-175-01- 3-one.

Example 32 100 mg. of 6a-methyl-l7a-chloroethynyl-l9-nor-4- androstene-l7B-ol-3-one is heated with 1 cc. of acetic anhydride and 1.2 cc. of pyridine on the steam bath overnight. The reaction mixture is then poured onto ice and extracted with chloroform. The extract is washed with Water and concentrated. The concentrate is chromatographed over acid-Washed alumina and eluted with mixtures of ether-petroleum and ether to give 6rx-methyl-l7achloroet-hynyl-l9-nor-4-androstene-17B-ol-3-one acetate.

In accordance with the above procedures, but starting with the 6a-methyl-17a-bromoethynyl-l9-nor-4-androstene-l7 3-ol-3-one in place of the 6ct-II1CthYl-17a-Chl0l'0- ethynyl-l9-nor-4 androstene-l7f3-ol-3-one, there is obtained the 6e-methyl-l7a-brom0ethynyl-19-nor-4-androstene-l7fl-ol-3-one acetate.

A mixture of 500 mg. of the 6a-methyl-17a-chloroethynyl-l9-nor-4-androstene-l7l8-ol-3-one, 10 ml. of dimethylformamide,'20 ml. of methyl iodide, and 1.5 gms. of silver oxide is stirred at room temperature for 4 days. An additional /2 gm. of silver oxide is added at the end of each day. One hundred ml. of chloroform is then added to the reaction mixture which is then stirred for one hour, filtered, and the filtrate is evaporated to dryness. The residual oil is chromatographed with acidwashed alumina and eluted with mixtures of ether and petroleum ether to give Set-methyl-17a-chl0roethynyl-19- nor-4-androstenel7fi-methoxy-3-one.

In accordance with the above procedures, but starting with the 6a-methyl-l7a-bromoethynyl-19-nor-4-androstene-175-ol-3-one in place of the 60t-mCthyl-17OL-ChlOIO- ethynyl-l9-nor-4-androstene-17,8-01-3-one, there is obtained the 6a-methyl17a-br-omoethynyl-19-nor-4-androstene-l7fi-methoxy-3-one.

Example 33 To a solution of 200 mg. of the l7a-chloroethynyl-l9- nor-3,5-androstadiene-3,l7p3-diol diacetate (Example 17) dissolved in 2 ml. of acetic acid is added, with stirring, 56 ml. of N-chlorosuccinimide and 2 m1. of tetrahydrofuran containing 5% of dry HCl. The reaction is stirred at room temperature for 2 /2 hours. Sodium bicarbonate Example 34 A solution of the 17a-chloroethynyl 19 nor 3,5 androstadiene-3,1718-diol diacetate in aqueous tetrahydro furan is treated with a slow stream of perchloryl fluoride for one hour and then allowed to stand at room temperature for an additional 2 hours. The reaction mixture is poured on ice and extracted with chloroform. The chloroform layer is washed. with aqueous bicarbonate solution, dried and concentrated in vacuo. The crude ma terial is dissolved in acetic acid saturated with gaseous hydrogen chloride and allowed to stand for one hour at room temperature. The reaction mixture is poured on ice and extracted with chloroform. The chloroform layer is washed with aqueous bicarbonate solution, dried and concentrated in vacuo. The concentrate is chromatographed on acid-washed alumina to yied the 6a-fluorol7a-chloroethynyl-19-nor-androstene-17,8-ol-3-one acetate.

In accordance with the above procedures, but starting with the -17a-b-romoe-thynyl-19 nor 3,5 androstadiene- 3,17,8-diol diacetate in place of the 17a-chloroethynyl- 19-11or-3,5 androstadiene-3,l7/8-diol di-acetate there is obtained the e-fluoro-l7a-bromoethynyl-19-nor 4 androstene-l7I3-ol-3-one acetate.

A mixture of 500 mg. of the 17a-chloroethynyl-19-nor- 4-androstene-17;3-ol-3-one (Example 3) 10 ml. of dimethylformamide, 20 ml. of methyl iodide, and 1.5 gm. of silver oxide is stirred at room temperature for 4 days. An additional /2 gm. of silver oxide is added at the end of each day. One hundred ml. of chloroform is then added to the reaction mixture which is then stirred for one hour, filtered, and the filtrate is evaporated to dryness. The residual oil is chromatographed with acid-washed alumina and eluted with mixtures of ether and petroluem ether to give 17oc-chloroethynyl-l9-nor-4 androstene 17;? methoxy-3-one. i

In accordance with the above procedures, but starting with the 17a-bromoethynyl-l9-nor-4 androstene-175-01-3- one in place of the 17u-chloroethynyl-19-nor-4-androstene-17B-ol-3-one there is obtained the 17a-bromoethynyl-l9-nor-4-androstene-l7fi-methoxy-3-one.

A mixture of 1 g. of 17cx-chloroethynyl-l9-nor-4-androstene-17/8-methoxy-3-one, 10 ml. of acetic anhydride and mg. of p-toluenesul'fonic acid is heated on the steam bath for one hour and allowed to stand overnight at room temperature. It is then poured into ice water and left to stand at room temperature for one half hour. The reaction mixture is then extracted with ether. The ether extract is washed with water and aqueous sodium bicarbonate, dried, and concentrated to yield the crude 17ozchloroethynyl-19-nor-3,5-androstadiene-17,8-methoxy 3- ol acetate.

In accordance with the above procedures, but starting with the 17u-bromoethynyl-19 nor 4 androstene 17B- methoxy-3-one in place of the 17a-chloroethynyl-19-nor-4- androstene-17,8-methoxy-3-one, there is obtained the br-omoethynyl-19-nor-3,S-androstadiene-17/3-meth0xy 3- ol acetate.

To a solution of 200 mg. of the l7a-chloroethynyl-l9- nor 3,5-androstadiene-l7/8-methoxy-3-ol acetate dissolved in 2 ml. of acetic acid is added, with stirring, 56 ml. of N-chlorosuccinimide and 2 ml. of tetrahydrofuran con- 3i taining of dry HCl. The reaction is stirred at room temperature for 2 /2 hours. Sodium bicarbonate is added. The reaction mixture is then extracted with ether. The ether extracts are dried and concentrated. The material is chromatographed over acid-washed alumina, and eluted with ether-petroleum ether mixtures to give 6a-chloro 17a-ohloroethynyl-l9-nor-4 androstene-17,8 methoxy 3- one.

In' accordance with the above procedures, but starting with the 17a-bromoet'hynyl-l9 nor 3,5 androstadiene- 17,8-methoxy-3-ol acetate in place of the 17a-chloroethynyl-l9-nor-3,5-androstadiene-17,8-methoxy-3 ol acetate there is obtained the 6ot-chloro-l7a-bromoethynyl-l9- nor-4-androstene-l7p-methoxy-3-one.

Example 35 A solution of the 17 u-chloroethynyl-l9 nor 3,5 androstadiene-l7p-methoxy-3-o1 acetate in aqueous tetrahydrofuran is treated with a slow stream of perchlorylfluoride tor one hour and then allowed to stand at room temperature for an additional 2 hours. The reaction mixture is poured on ice and extracted with chloroform. The chloroform layer is washed with aqueous bicarbonate solution, dried and concentrated in vacuo. The crude material is dissolved in acetic acid saturated with gaseous -hydrogen chloride and allowed to stand for one hour at room temperature. The reaction mixture is poured on ice and extracted with chloroform. The chloroform layer is Washed with aqueous bicarbonate solution, dried and concentrated in vacuo. The concentrate is chromatographed on acid-Washed alumina to yield the 6u-fiuoro 17a-chloroethynyl-19-nor-4 androstene-17p-met'hoxy 3- one.

In accordance with the above procedures, but starting with the l7a-bromoethynyl-l9-nor-3,5-androstadiene-l7B- 'methoxy-3-ol acetate in place of the 17oc-cl1lOroethyny1- 19-nor-3,S-androstadiene-17B-methoxy-3-ol acetate, there is obtained the '6u-fiuoro-l7a-bromoethynyl-l9-nor-4-androstene-17/9-methoxy-3-one.

stene-l7B-0l-3-one, in place of the 17ot-chlor-oethynyl-l9 nor-4-androstene-l7B-o1 3-one, there is obtained the 21- bromo-l9-nor-'4,20-pregnadiene-17 8-ol-3-one,

21-chlorol9 nor 5(10),20 pregnadiene 1713 ol 3 one, or 21- bromo 19 nor 5(10) ,2() pregnadiene 17p o1 3- one respectively.

, Example 37 A suspension of platinum oxide in 10 cc. of ethanol is reduced and mg. of 17a-chlo1'oethynyl-19-nor-4-androstene-l7/3-ol-3-one is added. Reduction proceeds until two moles of hydrogen have been absorbed. The solution is filtered, concentrated and chromatographed on alumina to yield the Zl-chloro-19-nor-4-pregnene-l7fiol-3-one.

In accordance with the above procedure, but starting with the 17a bromoethynyl-l9-nor-4-androstene:17,8-01- 3-one, the l7a-chloroethynyl-l9-nor-5(10)-androstenel7fl-ol-3-one, or the l7ot-bromoethynyl-l9-nor-5(10)-androstene-l7/3-ol-3-one in place of the l7a.-chloroethynyl l9-nor-4-andro-stened7,8-o1-3-one, there is obtained the 2l-bromo-l9-nor-4-pregnene-l7fl-ol-3-one, the 2l.-ch 1orol9-nor-5 l0)-pregnene-l7fl-ol-3one, or the Zl-bromo-l9- nor-5 l0) -pregnene-17fi-ol-3-one respectively.

We claim:

- 1. 6,8 methyl 17o; chloroethynyl androstene 3,8, 5a,l7/3-triol.

2. 65 methyl 17oz bromoethynyl androstane 3,13, 5u,17fi-triol.

3. 6,8 methyl 17a ch-loroethynyl androstane 5a, 17B-diol-3-one.

4. 65 methyl 17oz bromoethynyl androstane 5a, 17B-diol-3-one.

5. A compound selected from the group consisting of 6 methyl 17oz chloroethynyl 4,6 androstadiene 17B- ol 3-one, and the l7fl-lower alkanoyl esters and the 17,8- lower alkyl ethers thereof. I

6. A compound selected from the group consisting of 6 methyl 17a bromoethynyl 4,6 androstadiene 17(3- ol-3-one, and the 17,6-lowe'r alkanoyl esters and the lower alkyl ethers thereof.

7. A compound selected from the group consisting of 6 methyl 17a chloroethynyl 1,4,6 androstatrienel7,8-ol-3-one, and the l'lfi-lower alkanoyl esters and the Uri-lower alkyl ether's thereof.

8. A compound selected from the group consisting of 6 methyl 17cc brornoethynyl 1,4,6 androstatrienel7B-0l-3-one, and the 17fi-1-ower alkanoyl esters and the l7,8-lower alkyl ethers thereof.

9. 6p methyl 17o: chloroethynyl 19 nor androstane-3B,5u,17B-triol.

10. 6f! methyl 17oz bromoethynyl 19 nor androstane-3fi,5a,l7 3-triol.

11. 6B methyl 17a chloroet-hynyl 19 nor androstane-Sa,17/3 di-ol-3-one.

12. 6,8 methyl 17a bromoethynyl l9 nor andrQstane-Su,17fi-diol-3-one.

No references cited.

LEWIS GOTTS, Primary Examiner.

LESLIE H, GASTON, MORRIS LIEBMAN,

' I Examiners. 

3. 6B-METHYL-17A-CHLOROETHYNYL-ANDROSTANE-5A, 17B-DIOL-3-ONE.
 5. A COMPOUND SELECTED FROM THE GROUP CONSISTING OF 6-METHYL-17A-CHLOROETHYNYL-4,6-ANDROSTADIENE-17BOL-3-ONE, AND THE 17B-LOWER ALKANOYL ESTERS AND THE 17BLOWER ALKYL ETHERS THEREOF. 